General

Prof. Zhongmin Liu, CAE, Doctorial Tutor, Dalian Institute of Chemical Physics
Email: zml@dicp.ac.cn
Telephone: 041184379998
Address: No.457 Zhongshan Road, Dalian
Postcode: 116023

Research Areas

1.Catalysis and New Catalytic Reaction

1)The catalytic principle of molecular sieves

2) Reaction mechanism of methanol conversion

3) In-situ study and theoretical modeling of catalytic reaction

2.Synthesis of Molecular Sieves

1)Synthesis of novel zeolitic materials

2) Crystallization mechanism of zeolites

3)Scale-up and industrialization of the synthesis process of molecular sieves

3.Methanol & Its Derivatives Conversion

1)Methanol to light olefins

2)Methanol to propylene

      3)Other methanol & its derivatives conversion

4.Syngas Conversion

1)Direct conversion of syngas to low olefins

2) syngas to bulk chemicals

3) syngas/CO utilization

5. Hydrocarbon Conversion

1)Catalytic cracking of residue to produce light olefins

2)Naphtha to low olefins

3)CO2 and biomass utilization

4)Olefin hydration to petrochemical products

5)Alkylation of phenol

6)Development of zeolite adsorbents

6. Catalytic Process development and scale-up

1) Catalytic reaction engineering

2)Fluidized bed reactor

3)Measurement techniques for solid-gas two-phase flows

4)Theory and modeling of solid-gas two-phase flows

7.Engineering R&D

1) Separation technology for methanol to light olefins processes

2)Reactor and seperation system design for new process

3)Establishment of material database for new process through process simulations and experimentsr

4)Process Design Package (PDP) development and technical service for new process



Education

1986.3— 1990.12

Study for Ph. D.   degree in Dalian Institute of Chemical Physics,  

Specialty: physical   chemistry, catalysis

Title of Doctoral   Dissertation: Process Diffusion Theory and Its Application in Zeolite System

1983.8— 1986.2

Study for Master   degree in Dalian Institute of Chemical Physics

Specialty: physical   chemistry, catalysis

Title of Thesis:   Deactivation behaviors of zeolitic catalysts in              methanol to hydrocarbon   reaction

1979.9— 1983.7

Graduate from   Chemistry Department of Zhengzhou University


Experience

   
Work Experience

2017.03—

 Director of Dalian Institute of Chemical Physics

2015.12—

Academician of Chinese Academy of Engineering

2011.10—

Director   of National Energy Low-carbon Catalysis and Engineering R&D

2008.06—

Director   of National Engineering Laboratory for Methanol to Olefin

2007.02—

Deputy  Director of Dalian Institute of Chemical Physics

2004.03—2007.03

Assistant   director of Dalian Institute of Chemical Physics

2001.03—

Member   of Academic Committee, Member of Degree Authorization Committee, DICP

1998.12—2003.05:

Director of Applied   Catalysis Laboratory, DICP

1998.3—1998.12:

Director of Acid   and Base Catalysis Laboratory, DICP

1996.10—:

Professor, DICP

1996.3—1996.10:

Collaboration   research on environmental catalytic chemistry under the frame of China-France   PICS (No.299) corporation program in CNRS 418 (Montpellier, France)

1994.10—1996.10:

Associate professor   of DICP, head of research group


Honors & Distinctions

(1)  Chambroad Technology Award in 2020.

(2)  Top Award of scientific and technological by Liaoning Province in 2019.
(3)  Professional Achievement Award for Innovations in Green Process Engineering by AIChE in 2018.
(4)   National Innovation Competition Awards in 2017.
(5)   The 6th Chinese Catalytic Achievement Award in 2017.
(6)   The Science and Technology Innovation Award of 2015 HLHL Foundation in 2015
(7)   The state Technological Invention Awards First Prize on “The technology of methanol to olefins(DMTO)” in 2014
(8)  The China Petroleum and Chemical Industry Federation (CPCIF) Science and technology Progress Award (special class) on “Sets of Industrial Technology Development and Application in Demonstration Project of Coal to Olefin in Baotou” in 2013
(9)  National Engineering Laboratory for Methanol to Olefins won the state Innovative Talents Promoting Plan in Key Area in 2012
(10)  The research group for methanol to olefins won Outstanding Science and Technology Research Achievement Prize of the Chinese Academy of Sciences in 2011
(11)  The China Petroleum and Chemical Industry Federation (CPCIF) Technology Invention Award (special class) on " DMTO technology" in 2011
(12) The 13th China Patent Award of "Method for Producing Light Olefin from Methanol or/and Dimetyl Ether(ZL200710064232.3)" in 2011
(13)    "Approaching Commercialization of the Technology of Olefins Manufacturing from Coal Instead of Oil" was picked out as one of Top Ten “Science and Technology Progress News" of China in 2010
(14)    The first class Technology Invention Award on "catalyst for DMTO technology" by Dalian Municipality Government in 2009
(15) The first class Science and Technology Progress Award on “DMTO technology” by Liaoning Province Government in 2008
(16) The first class Technology Invention Award on “The Technology of Solid Acid Catalysis Pressure Propylene Hydration Isopropanol” by Dalian Municipality Government in 2008
(17) The second class Science and Technology Progress Award on "15000 Tons DMTO Demonstration Unit" by Shanxi Province Government in 2008

Publications


"Methanol to Olefins", ISBN 978-7-03-043306-0, 2015.

Papers

1)         Progress in Seed-assisted Synthesis of (Silico)Aluminophosphate Molecular Sieves. Zhang Xiaosi, Yang Miao*, Tian Peng, Liu Zhongmin*, Chemical Research in Chinese Universities, 38 (1),1-8,2022.

2)         Recognizing the Important Role of Surface Barriers in MOR Zeolite Catalyzed DME Carbonylation Reaction. Kaipeng Cao, Dong Fan, Mingbin Gao, Benhan Fan, Nan Chen, Linying Wang, Peng Tian*, Zhongmin Liu*, ACS Catalysis, 12(1):1-7, 2022.

3)         Achieving high conversion of syngas to aromatics. Yi Fu,Youming Ni,Zhiyang Chen,Wenliang Zhu*, Zhongmin Liu*,Journal of Energy Chemistry,66:597-602, 2022. 

4)         Insights into effects of ZrO2 crystal phase on syngas-to-olefins reaction behaviors over ZnO/ZrO2 and SAPO-34 composite catalysts. Zhaopeng Liu,Youming Ni, Zhongpan Hu, Yi Fu, Xudong Fang, Qike Jiang, Zhiyang Chen, Wenliang Zhu* , Zhongmin Liu*,Chinese Journal of Catalysis, 43(3):877-884, 2022

5)         A dual-bed catalyst for producing ethylene and propylene from syngas. Youming Ni, Zhaopeng Liu, Peng Tian,Zhiyang Chen, Yi Fu,Wenliang Zhu* , Zhongmin Liu*,Journal of Energy Chemistry, 66:190-194, 2022.

6)         SSZ-13分子筛催化乙醇脱水制乙烯反应的原位固体核磁共振研究. 曾姝, 徐舒涛*, 魏迎旭, 刘中民*, 波谱学杂志,DOI: 10.11938/cjmr20212946.

7)         Reaction rate enhancement by reducing surface diffusion barriers of guest molecules over ZSM-5 zeolites: a structured illumination microscopy study. Shichao Peng, Hua Li, Wenjuan Liu, unyi Yu, Zhaochao Xu, Mao Ye*, Zhongmin Liu, Chemical Engineering Journal, 430(1):132760, 2022.

8)         Hydrothermal synthesis of Siliceous Beta Zeolite by an inorganic cation-driven strategy and its crystallization mechanism.Dongxia Luo, Quanyi Wang, Dong Fan, Benhan Fan, Kaipeng Cao, Shutao Xu, Peng Tian*, Zhongmin Liu*, Microporous and Mesoporous Materials, 329:111557, 2022.

9)         Selective Removal of Acid Sites in Mordenite Zeolite by Trimethylchlorosilane Silylation to Improve Dimethyl Ether Carbonylation Stability.Rongsheng Liu, Shu Zeng, Tantan Sun, Shutao Xu, Zhengxi Yu,* Yingxu Wei, Zhongmin Liu*, ACS Catalysis, 12(8):4491-4500, 2022.

10)     Highly Enhanced Aromatics Selectivity by Coupling of Chloromethane and Carbon Monoxide over H-ZSM-5. Xudong Fang, Hongchao Liu,* Zhiyang Chen, Zhaopeng Liu, Xiangnong Ding, Youming Ni, Wenliang Zhu,* and Zhongmin Liu*, Angew. Chem. Int. Ed., 61(13):e202114953, 2022.

11)     Designed synthesis of MOR zeolites using geminitype bis(methylpyrrolidinium) dications as structure directing agents and their DME carbonylation Performance. Nan Chen, Jin Zhang, Yating Gu, Wenna Zhang, Kaipeng Cao,Wenhao Cui, Shutao Xu, Dong Fan*, Peng Tian*, Zhongmin Liu, J. Mater. Chem. A,10(15):8334-8343, 2022.

12)     Increasing the Number of Aluminum Atoms in T3 Sites of a Mordenite Zeolite by a Low-pressure SiCl4 Treatment to Catalyze Dimethyl Ether Carbonylation. Rongsheng Liu, Benhan Fan, Wenna Zhang, Linying Wang, Liang Qi, Yingli Wang,Shutao Xu, Zhengxi Yu,* Yingxu Wei, Zhongmin Liu*, Angew. Chem. Int. Ed., e202116990, 2022.

13)     应对碳减排挑战 现代煤化工多能融合创新发展研究. 靳国忠 ,张晓 ,朱汉雄 ,李津京 ,张默之 ,肖宇 ,蔡睿 ,刘中民, 中国煤炭 , 47 (3) : 15-20 , 2021.

14)     新时代西北地区推进能源革命的战略路径研究. 朱汉雄 ,耿笑颖 ,肖宇 ,蔡睿 ,刘中民,中国工程科学 , 23 (1) : 92-100, 2021.

15)     Synthesis of high‐crystallinity MIL‐125 with outstanding xyleneisomer separation performance.Liping Yang, Jiacheng Xing,Danhua Yuan, Lin Li, Yunpeng Xu*, Zhongmin Liu*.Chinese Journal of Catalysis, 42(12):2313-2321, 2021.

16)     Dye-Polyoxometalate Coordination Polymer as Photodriven Electron Pump for Photocatalytic Radical Coupling Reactions. Zheng Ming, Tiexin Zhang*, Wenming Tian, Jianing Li, Zhenhui Liu, Renhai Liu, Zhongmin Liu*, Chunying Duan*.  Chem. Commun.,57(95):12812-12815,  2021

17)     Insights into the size effect of ZnCr2O4 spinel oxide in composite catalysts for conversion of syngas to aromatics. Yi Fu, Youming Ni, Wenhao Cui, Xudong Fang, Zhiyang Chen, Zhaopeng Liu, Wenliang Zhu* , Zhongmin Liu*, Green Energy & Environment, DOI: 10.1016/j.gee.2021.07.003

18)     再生时间对甲醇制烯烃催化剂水蒸气再生过程的影响. 安怀清,周吉彬,张今令,张涛,叶茂*,刘中民, Huaiqing An, Jibin Zhou, Jinling Zhang, Tao Zhang, Mao Ye*, Zhongmin Liu 化工进展Chemical Industry and Engineering Progress,41(1):221:223, 2022.

19)      Significant enhancement in CH4/N2 separation with amine-modified zeolite Y. Yaqi Wu, Danhua Yuan, Shu Zeng, Liping Yang, Xingzong Dong, Quan Zhang, Yunpeng Xu*, Zhongmin Liu, Fuel, 301:121077, 2021.

20)     Effects of the Pore Structure and Acid–Base Property of X Zeolites on Side-Chain Alkylation of Toluene with Methanol. He Han, Min Liu,* Hong Yang,* Chuan Shi, Shutao Xu, Yingxu Wei, Zhongmin Liu, Chunshan Song, Xinwen Guo*, Industrial&Engineering Chemistry Research, 60(40):14381-14396, 2021.

21)     Exploring Organic Structure-directing Agents Used for SAPO-34 to Synthesize SSZ-13. Lei Wang, Tantan Sun, Nana Yan, Chao Ma, Xiaona Liu, Peng Tian, Peng Guo*, Zhongmin Liu,Chemical Journal of Chinese Universities , 42(6):1716-1722, 2021.

22)     Manipulating morphology and surface engineering of spinel cobalt oxides to attain high catalytic performance for propane oxidation. Wenjun Zhu, Xiao Chen, Chuang Li, Zhongmin Liu*, Changhai Liang*, Journal of Catalysis, 396:179-191, 2021.

23)     Correlating the Adsorption Preference and Mass Transfer of Xenon in RHO-Type Molecular Sieves. Shushu Gao,Jiamin Yuan,Zhiqiang Liu, Caiyi Lou, Zhengxi Yu, Shutao Xu*, Anmin Zheng*, Pengfei Wu, Yingxu Wei, Zhongmin Liu*, The Journal of Physical Chemistry C, 125(12):6832-6838, 2021.

24)     Organic-free synthesis of MOR nanoassemblies with excellent DME carbonylation performance. Kaipeng Cao, Dong Fan, Shu Zeng, Benhan Fan, Nan Chen,Mingbin Gao, Dali Zhu,Linying Wang, Peng Tian*, Zhomgmin Liu, Chinese Journal of Catalysis, 42 (9), 1468-1477, 2021.

25)     One-pot synthesis of Na+-free Cu-SSZ-13 and its application in the NH3-SCR reaction. Juan Wang, Linying Wang, Dali Zhu, Wenhao Cui, Peng Tian*, Zhongmin Liu*. Chemical communications, 57(40):4898 – 4901, 2021.

26)     高硅Y沸石的合成研究进展. Juan Wang, Linying Wang, Dali Zhu, Wenhao Cui, YiFeng Wang,Peng Tian*, Zhongmin Liu*. Chemical journal of Chinese Universities, 42(1):1-10,2021.

27)     Dynamic Activation of C1 Molecules Evoked by Zeolite Catalysis. Xinqiang Wu, Wei Chen, Shutao Xu, Shanfan Lin, Tantan Sun, Anmin Zheng*, Yingxu Wei*, Zhongmin Liu*, ACS Cent. Sci., 7(4):681–687, 2021.

28)     Highly converting syngas to lower olefins over a dual-bed catalyst. Zhaopeng Liu, Youming Ni, Xudong Fang, Wenliang Zhu*, Zhongmin Liu*,Journal of Energy Chemistry, 58:573-576,2021.

29)     Direct Conversion of Dimethyl Ether and CO to Acetone via Coupling Carbonylation and Ketonization. Ziqiao Zhou, Hongchao Liu, Youming Ni, Fuli Wen, Zhiyang Chen, Wenliang Zhu*, Zhongmin Liu*,Journal of Catalysis, 396:360-373, 2021.

30)     Decarbonylation of Carboxylic Acids over H-Mordenite.Ziqiao Zhou, Hongchao Liu, Zhiyang Chen, Wenliang Zhu*, Zhongmin Liu*,ACS Catalysis, 11(7):4077-4083,2021.

31)     Realizing high conversion of syngas togasoline-range liquid hydrocarbons on a dual-bed-mode catalyst. Youming Ni, Kunyuan Wang,Wenliang Zhu*, Zhongmin Liu*, Chem Catalysis, 1:383-392, 2021.

32)     Coupling conversion of methane with carbonmonoxide via carbonylation over Zn/HZSM-5catalysts. Fuli Wen, Jin Zhang, Zhiyang Chen, Ziqiao Zhou, Hongchao Liu*,Wenliang Zhu*, Zhongmin Liu, CatalysisScience &Technology, 11:1358-1364,2021.

33)     Direct conversion of toluene into styrene with high selectivity over a composite catalyst. QijunYu, JinzheLi, ChangchengWei, ZhongminLiu*, Fuel, 285:119270, 2021.

34)     Conversion of CO2 and H2 into propane over InZrOx and SSZ-13 composite catalyst. Zhaopeng Liu, Youming Ni, Tantan Sun, Wenliang Zhu*, Zhongmin Liu*, Journal of Energy Chemistry, 54:111-117, 2021.

35)     The carboxylates formed on oxides promoting the aromatization in syngas conversion over composite catalysts. Zhiyang Chen, Youming Ni, Fuli Wen, Ziqiao Zhou, Wenliang Zhu*, Zhongmin Liu, Chinese Journal of Catalysis, 42(5):835-843, 2021.

36)     Formaldehyde intermediate participating in the conversion of methanol to aromatics over zinc modified H-ZSM-5. Youming Ni , Wenliang Zhu* , Zhongmin Liu*, Journal of Energy Chemistry, 54:174-178, 2021.

37)      Directed transforming of coke to active intermediates in methanol-to-olefins catalyst to boost light olefins selectivity. Jibin Zhou, Mingbin Gao, Jinling Zhang, Wenjuan Liu, Tao Zhang, Hua Li, Zhaochao Xu, Mao Ye, Zhongmin Liu, Nature Communications, 12(1): 17, 2021.

38)     Catalysts and shape selective catalysis in the methanol-to-olefin (MTO) reaction. Jiawei Zhong, Jingfeng Han, Yingxu Wei*. Zhongmin Liu*. Journal of Catalysis, 396:23-31, 2021.

39)     Dual-template directed aminothermal syntheses and characterization of silicoaluminophosphates SAPO-CLO and ECR-40. Lijing Sun, Wenna Zhang, Zhuocheng Li, Miao Yang*, Ye Wang, Xiaosi Zhang, Peng Tian*, Zhongmin Liu*, Microporous and Mesoporous Materials, 315: 110915, 2021.

40)     Revealing the Specific Spatial Confinement in 8‐membered Ring Cage‐type Molecular Sieves via Solid‐state NMR and Theoretical Calculations.   Caiyi Lou, Wenna Zhang,  Chao Ma,  Benhan Fan,  Shutao Xu*, Shushu Gao,  Peng Guo, Yingxu Wei*, Zhongmin Liu*, ChemCatChem, 13(5):1299 -1305, 2021.

41)     Preparation of Efficient Ultraviolet-Protective Transparent Coating by Using a Titanium-Containing Hybrid Oligomer. Jiacheng Xing, Danhua Yuan, Hua Xie, Nan Wang, Hanbang Liu, Liping Yang, Yunpeng Xu*, Zhongmin Liu*, ACS Applied Materials & Interfaces, 13(4):5592−5601, 2021.

42)     Synthesis of TS-1 zeolites from a polymer containing titanium and silicon. Jiacheng Xing, Danhua Yuan, Hanbang Liu, Yansi Tong, Yunpeng Xu*, Zhongmin Liu*, Journal of Materials Chemistry A, 9(10):6205-6213, 2021.

43)     Separation of xylene isomers in the anion-pillared square grid material SIFSIX-1‑Cu. Liping Yang, Hanbang Liu, Jiacheng Xing, Danhua Yuan, Yunpeng Xu*, Zhongmin Liu*. Chemistry-A European Journal, 27(20):6187-6190, 2021.

44)     Selective exchange of alkali metal ions on EAB zeolite. Yansi Tong, Danhua Yuan, Wenna Zhang, Yingxu Wei, Zhongmin Liu, Yunpeng Xu*, Journal of   Energy Chemistry,  58(1):41-47, 2021.

45)     有机硅烷辅助合成特殊形貌SAPO分子筛, Ye Wang, Xiaosi Zhang, Lijing Sun, Bing Li, Lin Liu, Miao Yang*, Peng Tian*, Zhongyi Liu, Zhongmin Liu. Chemical Journal of Chinese Universities, 42(3):683-690, 2021.

46)     The first carbon-carbon bond formation mechanism in methanol-to-hydrocarbons process over chabazite zeolite. TantanSun,WeiChen, ShutaoXu, AnminZheng*, XinqiangWu, ShuZeng, NanWang, XiangjuMeng, YingxuWei*, ZhongminLiu*. Chem, 7(9):1–14, 2021.

47)     Molecular Routes of Dynamic Autocatalysis for Methanol-to-Hydrocarbons Reaction. Shanfan Lin, Yuchun Zhi, Wei Chen, Huan Li, Wenna Zhang, Caiyi Lou, Xinqiang Wu, Shu Zeng, Shutao Xu, Jianping Xiao*, Anmin Zheng*, Yingxu Wei*, Zhongmin Liu*, Journal of the American Chemical Society, 143 (31):12038-12052, 2021.

48)     Investigation of Ethanol Conversion on H‑ZSM‑5 Zeolite by in Situ Solid-State NMR. Shu Zeng, Junjie Li, Nan Wang, Wenna Zhang, Yingxu Wei, Zhongmin Liu*, Shutao Xu*, Energ. Fuel., 35(15):12319-12328, 2021.

49)     Understanding the Fundamentals of Microporosity Upgrading in Zeolites: Increasing Diffusion and Catalytic Performances. Zhengxing Qin, Shu Zeng, Georgian Melinte, Tomáš Bučko, Michael Badawi, Yanfeng Shen, Jean-Pierre Gilson, Ovidiu Ersen, Yingxu Wei, Zhongmin Liu, Xinmei Liu, Zifeng Yan, Shutao Xu*, Valentin Valtchev, Svetlana Mintova*, Adv. Sci., 8(17):2100001, 2021.

50)     Efficient Separation of Xylene Isomers by a Pillar-Layer Metal-Organic Framework.Liping Yang, Hanbang Liu, Danhua Yuan, Jiacheng Xing,Yunpeng Xu*, Zhongmin Liu.ACS Applied Materials & Interfaces, 13(35):41600-41608, 2021.

51)     Effect of confinement on the rotation of a two-dimensional elliptical porous particle in shear flow. Jiajia Liu, Chenggong Li, Yunxin Zhang, Mao Ye*, Zhongmin Liu. Physics of Fluids, 33(8): 083317, 2021.

52)     Kinetics of steam regeneration of SAPO-34 zeolite catalyst in methanol-to-olefins (MTO) process. Huaiqing An, Hua Li, Jibin Zhou, Jinling Zhang, Tao Zhang, Mao Ye*, Zhongmin Liu.Chinese Journal of Chemical Engineering, 35:231-238, 2021.

53)     Data-driven prediction of minimum fluidization velocity in gas-fluidized beds using data extracted by text mining. Jibin Zhou, Duiping Liu, Mao Ye*, Zhongmin Liu, Industrial & Engineering Chemistry Research, 60(37):13727-13739, 2021.

54)     Embryonic zeolite-assisted synthesis of SSZ-13 with superior efficiency and their excellent catalytic performance.Linying Wang, Dali Zhu,Juan Wang,Wenhao Cui, Jingfeng Han, Bing Li, Dong Fan, Peng Tian,* Zhongmin Liu*, Journal of Materials Chemistry A,9(27):15238-15245, 2021.

55)     X 射线晶体学和电子晶体学在分子筛结构表征中的应用. Chao Ma, Xiaona Liu, Chenyang Nie, Lu Chen, Peng Tian, Hongyi Xu*, Peng Guo*, Zhongmin Liu. Chemical journal of Chinese Universities, 42(1):188-200,2021.

56)     Aromatization mechanism of coupling reaction of light alkanes with CO over acidic zeolites: Cyclopentenones as key intermediates. Changcheng Wei, Jinzhe Li, Kuo Yang, Qijun Yu, Shu Zeng, Zhongmin Liu*, Chem Catalysis, 1:1273-1290, 2021.

57)     Directly decorated CeY zeolite for O2-selective adsorption in O2/N2 separation at ambient temperature. Hanbang Liu, Danhua Yuan, Liping Yang, Jiacheng Xing, Shu Zeng, Shutao Xu, Yunpeng Xu*, Zhongmin Liu, Materials Horizons, 9(2):688-693, 2021.

58)     Efficient separation of propylene and propane on SAPO-17 molecular sieve. Yansi Tong, Jiacheng Xing, Caiyi Lou, Danhua Yuan, Wei Huang, Zhaoan Chen, Zhongmin Liu, Yunpeng Xu*, Can. J. Chem., 99(7): 570–575, 2021.

59)     DMTO: A Sustainable Methanol-to-Olefins Technology. Mao Ye*, Peng Tian, Zhongmin Liu, Engineering, 7(1):17–21, 2021.

60)     Exploring boron distributions in MFI-type borosilicates. Xiaona Liu, Nana Yan, Chao Ma, Lei Wang, Peng Tian, Peng Guo*, Zhongmin Liu, INORGANIC CHEMISTRY COMMUNICATIONS, 126:108467, 2021.

61)     The Complex Crystal Structure and Abundant Local Defects of Zeolite EMM-17 Unraveled by Combined Electron Crystallography and Microscopy. Xiaona Liu, Lingmei Liu, Tingting Pan, Nana Yan, Xinglong Dong, Yuanhao Li, Lu Chen, Peng Tian, Yu Han*, Peng Guo*, Zhongmin Liu, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 60(45):24227-24233, 2021.

62)     Progresses of hyperpolarized 129Xe NMR application in porous materials and catalysis. Benhan Fan, Shutao Xu *, Yingxu Wei*, Zhongmin Liu*,Magnetic Resonance Letters, 1:11-27, 2021.

63)     Facile sulfolane-modified resins for enhanced dimethoxymethane carbonylation. Yao, Jie ,Shi, Lei ,Deng, Wenjie ,Fan, Jiaqi ,Wang, Yan ,Gao, Weizhe ,Zhang, Dongxi ,Zhu, Wenliang ,Liu, Zhongmin, CATALYSIS SCIENCE & TECHNOLOGY , 10 (8) : 2561-2572, 2020.

64)     A facile sulfur-assisted method to synthesize porous alveolate Fe/g-C3N4 catalysts with ultra-small cluster and atomically dispersed Fe sites. An, Sufeng ,Zhang, Guanghui ,Liu, Jiaqiang ,Li, Keyan ,Wan, Gang ,Liang, Yan ,Ji, Donghui ,Miller, Jeffrey T ,Song, Chunshan ,Liu, Wei ,Liu, Zhongmin ,Guo, Xinwen, CHINESE JOURNAL OF CATALYSIS, 41 (8) : 1198-1207, 2020.

65)     Product Control in Conversion of Ethanol on MIL-101(Cr) with Adjustable Brønsted Acid Density. Zheng Ming, Yingli Wang, TiexinZhang, Lingyun Li, Chunying Duan*, Zhongmin Liu*. ChemCatChem, 12 (24):6234-6240, 2020.

66)     A Two‐Dimensional Mesoporous Polypyrrole‐Graphene Oxide Heterostructure as Dual‐Functional Ion Redistributor for Dendrite‐free Lithium Metal Anodes. Haodong Shi, Jieqiong Qin, Kai Huang, Pengfei Lu, Chuanfang (John) Zhang, Yanfeng Dong, Mao Ye, Zhongmin Liu, Zhongshuai Wu*.ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,59(29):12147-12153,  2020.

67)     Coupling conversion of n-hexane and CO over an HZSM-5 zeolite: Tuning the H/C balance and achieving high aromatic selectivity, Changcheng Wei, Qijun Yu, Jinzhe Li, Zhongmin Liu*, ACS Catal. 10(7) :4171-4180, 2020.

68)     High Propylene Selectivity in Methanol Conversion over a Small-Pore SAPO Molecular Sieve with Ultra-Small Cage, Miao Yang, Bing Li, Mingbin Gao, Shanfan Lin, Ye Wang, Shutao Xu, Xuebin Zhao, Peng Guo, Yingxu Wei, Mao Ye, Peng Tian*, Zhongmin Liu*, ACS Catal., 10(6):3741-3749, 2020.

69)     Enhanced Propene/Propane Separation by Directional Decoration of the 12‐Membered Rings of Mordenite with ZIF Fragments,Yaqi Wu,Shu Zeng,Danhua Yuan,Jiacheng Xing,Hanbang Liu,Shutao Xu,Yingxu Wei,Yunpeng Xu*,Zhongmin Liu*, Angewandte Chemie,59(17):6765-6768, 2020.

70)     Molecular elucidating of an unusual growth mechanism for polycyclic aromatic hydrocarbons in confined space,Nan Wang, Yuchun Zhi, Yingxu Wei*, Wenna Zhang, Zhiqiang Liu, Jindou Huang, Tantan Sun,Shutao Xu,Shanfan Lin, Yanli He, Anmin Zheng, Zhongmin Liu*, Nature Communications, 11(1):1079, 2020.

71)     Insights into the Pyridine-Modified MOR Zeolite Catalysts for DME Carbonylation,Kaipeng Cao,Dong Fan,Lingyun Li,Benhan Fan,Linying Wang,Dali Zhu,Quanyi Wang,Peng Tian*,Zhongmin Liu*, ACS Catal., 10(5):3372-3380, 2020.

72)     Insight into catalytic properties of Co3O4-CeO2 binary oxides for propane total oxidation, WenjunZhu, XiaoChen, JianhuiJin, XinDi, ChanghaiLiang*, ZhongminLiu*, Chinese Journal of Catalysis, 41(4): 679-690, 2020.

73)     Differentiating Diffusivity in Different Channels of ZSM‐5 Zeolite by Pulsed Field Gradient (PFG) NMR,Shu Zeng,Shutao Xu*,Shushu Gao,Mingbin Gao,Wenna Zhang,Yingxu Wei*,Zhongmin Liu*, ChemCatChem, 12(2): 463-468, 2020.

74)     Enhanced propane dehydrogenation to propylene over zinc-promoted chromium catalysts,Jie Liu, Yong Liu, Youming Ni,Hongchao Liu, Wenliang Zhu, Zhongmin Liu *, Catalysis Science & Technology, 10(6):1739-1746, 2020.

75)     Preparation of Hierarchical SAPO-18 via alkaline/acid etching, Dong Fan, Yuyan Qiao, Kaipeng Cao, Lijing Sun, Shutao Xu, Peng Tian, Zhongmin Liu*, Microporous and Mesoporous Materials, 300:110156, 2020.

76)      Enhancing syngas-to-aromatics performance of ZnO&H-ZSM-5 composite catalyst via Mn modulation, YiFu, YoumingNi, WenliangZhu. ZhongminLiu*, Journal of Catalysis, 383: 97-102, 2020.

77)     Role of ball milling during Cs/X catalyst preparation and effects on catalytic performance in side-chain alkylation of toluene with methanol. Qijun Yu, Jinzhe Li, Changcheng Wei, Shu Zeng, Shutao Xu, Zhongmin Liu*, Chinese Journal of Catalysis, 41(8): 1268-1278,2020.

78)     Methylcyclopentenyl Cation Mediated Reaction Route in Methanol-to-Olefins Reaction over H-RUB-50 with Small Cavity.Wenna Zhang, Shutao Xu , Yuchun Zhi , Yingxu Wei *, Zhongmin Liu *.Journal of Energy Chemistry. 45:25-30, 2020.

79)     Particle tracking velocimetry of porous sphere settling under gravity: preparation of the model porous particle and measurement of drag coefficients. Likun Ma, Shuliang Xu, Xue Li, Qiang Guo, Deyang Gao, Ya Ding, Mao Ye*, Zhongmin Liu. Powder Technology, 360: 241-252, 2020.

80)     Regeneration of catalysts deactivated by coke deposition: A review. Jibin Zhou, Jianping Zhao, Jinling Zhang, Tao Zhang, Mao Ye*, Zhongmin Liu. Chinese Journal of Catalysis,41(7):1048-1061, 2020.

81)     Progress in coal chemical technologies of China. Yong Yang, Jian Xu*, Zhenyu Liu*, Qinghua Guo, Mao Ye, Gang Wang, Junhu Gao, Junwu Wang, Zhan Shu, Wei Ge, Zhongmin Liu, Fucheng Wang, Yong-Wang Li*. Review in Chemical Engineering,36(1):21-66, 2020.

82)     A novel image reconstruction strategy for ECT: combining two algorithms with a graph cut method. Qiang Guo, Xue Li, Baolin Hou, Gregoire Mariethoz, Mao Ye*, Wuqiang Yang, Zhongmin Liu. IEEE Transactions on Instrumentation & Measurement,69(3):804-814, 2020.

83)     Methylcyclopentenyl Cations Linking Initial Stage and Highly Efficient Stage in Methanol-to-Hydrocarbon Process.Wenna Zhang, Mozhi Zhang, Shutao Xu*, Shushu Gao, Yingxu Wei*, Zhongmin Liu*, ACS Catlysis, 10(8):4510-4516, 2020.

84)     Capture and identification of coke precursors to elucidate the deactivation route of the methanol-to-olefin process over H-SAPO-34. Bowen Yu, Wenna Zhang, Yingxu Wei*, Xinqiang Wu, Tantan Sun, Benhan Fan, Shutao Xu, Zhongmin Liu*, ChemComm., 56(58):8063-8066, 2020.

85)     Simultaneous Evaluation of Reaction and Diffusion over Molecular Sieves for Shape-Selective Catalysis.Jingfeng Han, Zhiqiang Liu, Hua Li, Jiawei Zhong, Wenna Zhang, Jindou Huang, Anmin Zheng, Yingxu Wei*, Zhongmin Liu*, ACS Catlysis,10(15):8727-8735, 2020.

86)     Water-Induced Structural Dynamic Process in Molecular Sieves under Mild Hydrothermal Conditions: Ship-in-a-Bottle Strategy for Acidity Identification and Catalyst Modification. Tantan Sun, Shutao Xu*, Dong Xiao, Zhiqiang Liu, Guangchao Li, Anmin Zheng, Wenjuan Liu, Zhaochao Xu, Yi Cao, Qiang Guo, Nan Wang, Yingxu Wei*,Zhongmin Liu*, Angewandte Chemie International Edition, 59(46):20672-20681, 2020

87)     Insight into the Dual Cycle Mechanism of Methanol-to-Olefins Reaction over SAPO-34 Molecular Sieve by Isotopic Tracer Studies. Bowen Yu, Caiyi Lou, Wenna Zhang, Shutao Xu, Jingfeng Han, Zhengxi Yu, Yingxu Wei*, Zhongmin Liu*, Chem. Res. Chinese Universities, 36(6):1203-1208, 2020.

88)     A Bottom-Up Strategy for the Synthesis of Highly Siliceous Faujasite-Type Zeolite. Dali Zhu, Linying Wang, Dong Fan, Nana Yan, Shengjun Huang, Shutao Xu, Peng Guo, Miao Yang, Jianmin Zhang, Peng Tian*, Zhongmin Liu*, Advanced Materials, 32(26):2000272, 2020.

89)     A reconstruction strategy for the synthesis of Cu-SAPO-34 with excellent NH3-SCR catalytic performance and hydrothermal stability. Lijing Sun, Miao Yang, Yi Cao, Peng Tian*, Pengfei Wu, Lei Cao, Shutao Xu, Shu Zeng, Zhongmin Liu, Chinese Journal of Catalysis, 41(9):1410-1420, 2020.

90)     Cu-SAPO-17: A novel catalyst for selective catalytic reduction of Nox. Xiaona Liu, Yi Cao, Nana Yan, Chao Ma, Lei Cao, Peng Guo*, Peng Tian*, Zhongmin Liu*,Chinese Journal of Catalysis, 41(11):1715-1722, 2020.

91)     Rational Design of a Novel Catalyst Cu-SAPO-42 for NH3-SCR Reaction. Nana Yan, Chao Ma, Yi Cao, Xiaona Liu, Lei Cao, Peng Guo*, Peng Tian*, Zhongmin Liu*, SMALL, 16(33):2000902, 2020.

92)     Identifying and controlling the acid sitedistributions in mordenite zeolite for dimethylether carbonylation reaction by means of selectiveion-exchange, Shiping Liu, Hongchao Liu, Xiangang Ma, Yong Liu,Wenliang Zhu* , Zhongmin Liu*, Catalysis Science & Technology, 10:4663, 2020.

93)     Oxygen-selective adsorption on high-silica LTA zeolite. Hanbang Liu, Danhua Yuan, Guangye Liu, Jiacheng Xing, Zhongmin Liu, Yunpeng Xu*, Chem. Commun., 56(75):11130-11133, 2020.

94)     3D image reconstruction using an ECT sensor with a single layer of electrodes. Jingjing Shen, Shuanghe Meng, Mao Ye*, Wuqiang Yang, Zhongmin Liu, Measurement Science and Technology, 31(8): 085106, 2020.

95)     The rotation of 2D elliptical porous particles in a simple shear flow with fluid inertia. Jiajia Liu, Chenggong Li, Mao Ye*, Zhongmin Liu, Physics of Fluids, 32: 043305, 2020.

96)     Kinetics study on air regeneration of industrial MTO catalyst. Jianping Zhao, Jibin Zhou, Mao Ye*, Zhongmin Liu, Industrial & Engineering Chemistry Research, 59: 11953-11961, 2020.

97)     Imaging spatiotemporal evolution of molecules and active sites in zeolite catalyst during methanol-to-olefins reaction. Mingbin Gao, Hua Li, Wenjuan Liu, Zhaochao Xu, Shichao Peng, Miao Yang, Mao Ye*,Zhongmin Liu. Nature Communications, 11(1): 3461, 2020.

98)     An approach for predicting intracrystalline diffusivities and adsorption entropies in nanoporous crystalline materials. Mingbin Gao, Hua Li, Mao Ye*, Zhongmin Liu, AIChE Journal, 66(10):e16991, 2020.

99)     Fabrication of Cu-CHA composites with enhanced NH3-SCR catalytic performances and hydrothermal stabilities.Lijing Sun, Miao Yang, Lei Cao. Shutao Xu, Dali Zhu, Peng Tian*,Zhongmin Liu*,Microporous and Mesoporous Materials, 309:110585, 2020.

100)  Study on Crystallization Process of SAPO-5 Molecular Sieve.Dongxia Luo, Bing Li, Quanyi Wang, Peng Tian*, Zhongyi Liu, Zhongmin Liu*,CHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE, 41(11):2442-2448, 2020.

101)  Dimethyl ether Carbonylation over Mordenite zeolite modified byAlkyimidazolium ions.Shiping Liu, Xudong Fang, Yong Liu, Hongchao Liu, Xiangang Ma, Wenliang Zhu, Zhongmin Liu*,CATALYSIS COMMUNICATIONS, 147, 2020.

102)  The effect of Si environments on NH3 selective catalytic reduction performance and moisture stability of Cu-SAPO-34 catalysts.Yi Cao, Dong Fan, Dali Zhu, Lijing Sun, Lei Cao, Peng Tian*, Zhongmin Liu*,JOURNAL OF CATALYSIS, 391:404-413, 2020.

103)  Control of surface barriers in mass transfer to modulate methanol-to-olefins reaction over SAPO-34 zeolites.Shichao Peng, Mingbin Gao, Hua Li*, Miao Yang, Mao Ye*,Zhongmin Liu, Angewandte Chemie Internation Edition, 59(49):21945-21948, 2020.

104)  Acid Properties of SAPO-34 Molecular Sieves with Different Si Contents Templated by Various Organic Structure-Directing Agents. Lei Wang, Tantan Sun, Nana Yan, Xiaona Liu,Chao Ma, Shutao Xu, Peng Guo*,Peng Tian, Zhongmin Liu*,CHINESE JOURNAL OF CHEMICAL PHYSICS, 38(4):2003046, 2020.

105)  Realizing and Recognizing Syngas-to-Olefins Reaction via a Dual-Bed Catalyst. Youming Ni,Yong Liu,Zhiyang Chen,Miao Yang,Hongchao Liu,Yanli He,Yi Fu,Wenliang Zhu*,Zhongmin Liu*, ACS Catal., 9(2):1026-1032, 2019.

106)  Dissolution Equilibrium and In Situ Growth of HMCM-49 inAqueous-Phase Reaction. Xinde Sun,* Yingli Wang, Yanli He, Yue Yang, Shutao Xu, Shukui Zhu, Miao Yang, Zhongmin Liu*,  Ind. Eng. Chem. Res., 58(22):9339-9342, 2019.

107)  Cavity-controlled diffusion in 8-membered ring molecular sieve catalysts for shape selective strategy.Shushu Gao, Zhiqiang Liu, Shutao Xu*, Anmin Zheng*, Pengfei Wu, Bing Li, Xiaoshuai Yuan,Yingxu Wei*, Zhongmin Liu*,Journal of Catalysis,377:51–62,2019.

108)  Direct probing of heterogeneity for adsorption and diffusion within a SAPO-34 crystal.Shushu Gao,Shutao Xu*,Yingxu Wei*,Zhiqiang Liu,Anmin Zheng,Pengfei Wu,Zhongmin Liu*.chemcomm, 55(72):10693,2019.

109)  Study of the coke distribution in MTO fluidized bed reactor with MP-PIC approach. Xiaoshuai Yuan, Hua Li, Mao Ye*, Zhongmin Liu. Canadian Journal of Chemical Engineering, 97(2): 500-510, 2019.

110)  Pre-situated “Coke”-determined mechanistic route for ethene formation in methanol to olefins process. Jibin Zhou, Yuchun Zhi, Jinling Zhang, Zhiqiang Liu, Tao Zhang, Yanli He, Anmin Zheng, Mao Ye*, Yingxu Wei, Zhongmin Liu*.Journal of Catalysis, 377: 153-162, 2019.

111)  On the shear viscosity of dilute suspension containing elliptical porous particles at low Reynolds number. Jiajia Liu, Chenggong Li, Mao Ye*, Zhongmin Liu. Powder Technology, 354: 108-114, 2019.

112)  A modeling study on reaction and diffusion in MTO process over SAPO-34 zeolites. Mingbin Gao, Hua Li, Miao Yang, Jibin Zhou, Xiaoshuai Yuan, Peng Tian, Mao Ye*, Zhongmin Liu.Chemical Engineering Journal, 377:119668, 2019.

113)  Highly selective adsorption of CO over N2 on CuCl-loaded SAPO-34 adsorbent. Yaqi Wu, Zhaoan Chen, Bing Li, Jiacheng Xing, Hanbang Liu, Yansi Tong, Peng Tian, Yunpeng Xu*, Zhongmin Liu*, Journal of Energy Chemistry, 37:122-128, 2019.

114)  Recent Progress in the Methanol-to-Olefins (MTO) Catalyst. Miao Yang, Dong Fan, Peng Tian*, Zhongmin Liu*, Advanced Materials,31:1902181, 2019.

115)  Methanol to Olefins Reaction Route Based on Methylcyclopentadienes as Critical Intermediates. Wenna Zhang, Yuchun Zhi, Jindou Huang, Xinqiang Wu, Shu Zeng, Shutao Xu, Anmin Zheng*, Yingxu Wei*, Zhongmin Liu*,  ACS Catalysis, 9(8):7373-7379, 2019.

116)  Tuning the product selectivity of SAPO-18 catalysts in MTO reaction via cavity modification.JiaweiZhong,JingfengHan,YingxuWei*,ShutaoXu,TantanSun,ShuZeng,XinwenGuo,ChunshanSong, ZhongminLiu*, Chinese Journal of Catalysis,40(4):477–485, 2019.

117)  The template-assisted zincion incorporation in SAPO-34 and the enhanced ethylene selectivity in MTO reaction.JiaweiZhong,JingfengHan,YingxuWei,ShutaoXu,TantanSun,XinwenGuo,ChunshanSong,ZhongminLiu*, Journal of Energy Chemistry,32:174–181, 2019.

118)  Achieving a Superlong Lifetime in the Zeolite-Catalyzed MTO Reaction under High Pressure: Synergistic Effect of Hydrogen and Water. Xuebin Zhao,Jinzhe Li,Peng Tian*,Linying Wang,Xiaofang Li, Shanfan Lin, Xinwen Guo, Zhongmin Liu*, ACS Catalysis, 9(4):3017-3025, 2019.

119)  Decorated Traditional Zeolites with Subunits of Metal–OrganicFrameworks for CH4/N2 Separation. Yaqi Wu, Danhua Yuan, Dawei He, Jiacheng Xing, Shu Zeng, Shutao Xu, Yunpeng Xu*, Zhongmin Liu*, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 58:10241-10244, 2019.

120)  The self-protection effect of reactant gas on the moisture stability of CuSAPO-34 catalyst for NH3-SCR.YiCao,DongFan,LijngSun,MiaoYang,LeiCao,TantanSun,ShutaoXu,PengTian*,ZhongminLiu*,Chemical Engineering Journal, 374:832-839, 2019.

121)  Kinetic modeling of methanol to olefins process over SAPO-34 catalyst based on the dual-cycle reaction mechanism. Xiaoshuai YuanHua Li*, Mao Ye*, Zhongmin Liu, AIChE Journal, 65(2):662-674, 2019.

122)  Study of catalyst coke distribution based on population balance theory: application to methanol to olefins process. Hua Li, Xiaoshuai Yuan ,Mingbin Gao,Mao Ye* ,Zhongmin Liu, AIChE Journal, 65(4):1149-1161, 2019.

123)  A machine learning approach for electrical capacitance tomography measurement of gas-solids fluidized beds. Qiang Guo, Mao Ye*, Wuqiang Yang, Zhongmin Liu, AIChE Journal, 65(6): e16583 ,2019.

124)  Direct quantification of surface barriers for mass transfer in nanoporous crystalline materials. Mingbin GaoHua LiMiao YangShushu GaoPengfei WuPeng TianShutao XuMao Ye*, Zhongmin Liu*,  Communication Chemistry, 2: 43, 2019.

125)  Unraveling the Twin and Tunability of the Crystal Domain Sizes in the Medium-Pore Zeolite ZSM-57 by Electron Crystallography. Lei Wang, Nana Yan, Xiaona Liu, Xuebin Zhao, Meikun Shen, LeifengLiu, Peng Tian, Peng Guo*, Zhongmin Liu*, CHEMISTRY-A EUROPEAN JOURNAL, 25(4):1029-1036, 2019.

126)  Organic acid-assisted preparation of highly dispersed Co/ZrO2 catalysts with superior activity for CO2 methanation. Wenhui Li, Yi Liu, Minchen Mu, Fanshu Ding, Zhongmin Liu, Xinwen Guo*, Chunshan Song*, APPLIED CATALYSIS B-ENVIRONMENTAL, 254:531-540, 2019.

127)  Landscape of AlPO-based structures and compositions in the database of zeolite structures. Xiaona Liu, Nana Yan, Lei Wang, Chao Ma, Peng Guo*,Peng Tian, Guang Cao*, Zhongmin Liu,MICROPOROUS AND MESOPOROUS MATERIALS, 280:105-115, 2019.

128)  CO2 Hydrogenation on Unpromoted and M-Promoted Co/TiO2 Catalysts (M = Zr, K, Cs): Effects of Crystal Phase of Supports and Metal-Support. Wenhui Li, Guanghui Zhang, Xiao Jiang, Yi Liu, Jie Zhu, Fanshu Ding, Zhongmin Liu, Xinwen Guo*, Chunshan Song*, ACS CATALYSIS, 9(4):2739-2751, 2019.

129)  科技创新助力构建国家能源新体系.肖宇,彭子龙,何京东,刘中民*.中国科学院院刊, 34(4): 385-391, 2019.

130)  关于煤化工与石油化工的协调发展. 叶茂*,朱文良*,徐庶亮,刘中民.中国科学院院刊, 34(4):417-425, 2019.

131)  Effect of Electrode Length of an Electrical Capacitance Tomography Sensor on Gas−Solid Fluidized Bed Measurements, Kai Huang, Shuanghe Meng, Qiang Guo, Wuqiang Yang, Tao Zhang, Mao Ye*, Zhongmin Liu, Ind. Eng. Chem. Res., 58(47):21827-21841, 2019.

132)  H‑ZSM-5-Catalyzed Hydroacylation Involved in the Coupling of Methanol and Formaldehyde to Aromatics. Youming Ni, Wenliang Zhu*, Zhongmin Liu*, ACS Catalysis, 9(12):11398-11403, 2019.

133)  Differentiating Diffusivity in Different Channels of ZSM-5 Zeolite by Pulsed Field Gradient (PFG) NMR. Shu Zeng, Shutao Xu*, Shushu Gao, Mingbin Gao, Wenna Zhang, Yingxu Wei*, Zhongmin Liu*ChemCatChem,12(2):463-468,2019.

134)  Selective conversion of CO2 and H2 into aromatics. Youming Ni, Zhiyang Chen, Yi Fu, Yong Liu, Wenliang Zhu*,  Zhongmin Liu* .Nature Communications,9:3457, 2018.

135)  Coupling of Methanol and Carbon Monoxide over H-ZSM-5 to Form Aromatics. Zhiyang Chen, Youming Ni, Yuchun Zhi, Fuli Wen, Ziqiao Zhou, Yingxu Wei, Wenliang Zhu,* Zhongmin Liu*. Angew. Chem. Int. Ed. 57(38):12549-12553, 2018.

136)  Evolution of C−C Bond Formation in the Methanol-to-Olefins  Process: From Direct Coupling to Autocatalysis.Xinqing Wu, Shutao Xu, Yingxu Wei*, Wenna Zhang, Jindou Huang, Shuliang Xu, Yanli He, Shanfan Lin, Tantan Sun, Zhongmin Liu*. ACS Catalysis,8(8):7356-7361,2018.

137)  Methanol to Olefins Reaction over Cavity-type Zeolite: Cavity Controls the Critical Intermediates and Product Selectivity.Wenna Zhang, Jingrun Chen, Shutao Xu, Yueying Zhe, Yingxu Wei*,Yunchun Zhi, Jindou Huang, Anmin Zheng*,Xinqiang Wu,Xiangju Meng, Fengshou Xiao,Feng Deng, Zhongmin Liu*. ACS Catalysis,8(12):10950-10963,2018

138)  A novel approach for facilitating the targeted synthesis of silicoaluminophosphates.Nana Yan, Lei Wang, Xiaona Liu, Pengfei Wu, Tantan Sun, Shutao Xu, Peng Guo*, Peng Tian*, Zhongmin Liu*, Journal of Materials Chemistry A, 6(47):24186-24193, 2018.

139)  Investigation of the coupled reaction of methyl acetate and n‐hexane over HZSM‐5.Kuo Yang, Jinzhe Li, Xiao Zhang, Zhongmin Liu*, Chinese Journal of Catalysis,39(12):1960-1970, 2018.

140)  One step synthesis of N-doped activated carbons derived from sustainable microalgae-NaAlg composites for CO2 and CH4 adsorption.Yaqi Wu, Zhaoan Chen, Yanan Liu, Yunpeng Xu*, Zhongmin Liu*, Fuel,233:574-581, 2018.

141)  Eco‐friendly synthesis of high silica zeolite Y with choline as green and innocent structure‐directing agent.Dawei he, Danhua Yuan, Zhijia Song, Yunpeng Xu*, Zhongmin Liu*, Chinese Journal of Catalysis,40(1):52-59, 2018.

142)  CuCl2/13X催化剂在乙炔氢氯化反应中的应用. Zhijia Song, Shaofeng Liu, Dawei He, Guangye Liu, Yunpeng Xu*, Zhongmin Liu*, Chinese Science: Chemistry,48(2):186-195, 2018.

143)  One-step aldol condensation reaction of dimethoxymethane and methyl acetate over supported Cs/ZSM-35 zeolite catalysts. Zhanling Ma, Xiangang Ma, Hongchao Liu, Wenliang Zhu*, Xinwen Guo, Zhongmin Liu*, Chinese Journal of Catalysis, 39(6):1129-1137, 2018.

144)  HZSM‐35 zeolite catalyzed aldol condensation reaction to prepare acrylic acid and its ester: Effect of its acidic property. Zhanling Ma, Xiangang Ma, Youming Ni, Hongchao Liu, Wenliang Zhu*, Xinwen Guo, Zhongmin Liu*, Chinese Journal of Catalysis, 39(11):1762-1769, 2018.

145)  Insight into the deactivation mode of methanol-to-olefins conversion over SAPO-34: Coke, diffusion, and acidic site accessibility. Shushu Gao, Shutao Xu*, Yingxu Wei*, Qinglong Qiao, Zhaochao Xu, Xinqiang Wu, Mozhi Zhang, Yanli He, Shuliang Xu, Zhongmin Liu*, Journal of Catalysis, 367:306-314, 2018.

146)  Increasing the selectivity to ethylene in the MTO reaction by enhancing diffusion limitation in the  shell layer of SAPO-34 catalyst. Jiawei Zhong, Jingfeng Han, Yingxu Wei*, Shuliang Xu, Yanli He, Yijun Zheng, Mao Ye, Xinwen Guo, Chunshan Song, Zhongmin Liu*, Chemical Communications, 54(25):3146-3149, 2018.

147)  Enhancing ethylene selectivity in MTO reaction by incorporating metal species in the cavity of SAPO‐34 catalysts. Jiawei Zhong, Jingfeng Han, Yingxu Wei*, Shutao Xu, Tantan Sun, Xinwen Guo, Chunshan Song*, Zhongmin Liu*, Chinese Journal of Catalysis, 39(11):1821-1831, 2018.

148)  Heterogeneous non-mercury catalysts for acetylene hydrochlorination: progress, challenges, and opportunities. Jiawei Zhong, Yunpeng Xu*, Zhongmin Liu*, Green Chemistry, 20(11):2412-2427, 2018.

149)  Fast detection and structural identification of carbocations on zeolites by dynamic nuclear polarization enhanced solid-state NMR. Dong Xiao, Shutao Xu, ownbill, Subhradip Paul, Li-Hua Chen, Shane Pawsey, Fabien Aussenac, Bao-Lian Su, Xiuwen Han, Xinhe Bao, Zhongmin Liu, Frédéric Blanc*, Chemical Science, 9(43):8184-8493, 2018.

150)  Influence of Al Coordinates on Hierarchical Structure and T Atoms Redistribution during Base Leaching of ZSM‑5. Junjie Li,Min Liu*,Xinwen Guo,Shu Zeng, Shutao Xu, Yingxu Wei, Zhongmin Liu, Chunshan Song*, Ind. Eng. Chem. Res., 57(45):15375-15384, 2018.

151)  In Situ Aluminum Migration into Zeolite Framework during Methanol-To-Propylene Reaction: An Innovation To Design Superior Catalysts. Junjie Li, Min Liu,* Xinwen Guo, Chengyi Dai, Shutao Xu, Yingxu Wei, Zhongmin Liu, Chunshan Song*, Ind. Eng. Chem. Res., 57(24):8190-8199, 2018.

152)  Probing locations of organic structure-directing agents (OSDAs) and hostguest interactions in CHA-type SAPO-34/44. Nana Yan, Hongyi Xu,Wenna Zhang, Tantan Sun, Peng Guo*, Peng Tian*, Zhongmin Liu*, MICROPOROUS AND MESOPOROUS MATERIALS, 264:55-59, 2018.

153)  The influence of low-temperature hydration methods on the stability of Cu-SAPO-34 SCR catalyst. Yi Cao, Dong Fan, Peng Tian*, Lei Cao, Tantan Sun, Shutao Xu, Miao Yang, Zhongmin Liu*, Chemical Engineering Journal, 354:85-92, 2018.

154)  Exploring Brønsted acids confined in the 10-ring channels of the zeolite ferrierite. Lei Wang,Hongyi Xu,Nana Yan,Sascha Correll,Shutao Xu,Peng Guo*, Peng Tian*,Zhongmin Liu*, CrystEngComm, 20(6):699-702, 2018.

155)  Preparation of Spherical Mordenite Zeolite Assemblies with Excellent Catalytic Performance for Dimethyl Ether Carbonylation. Lingyun Li, Quanyi Wang, Hongchao Liu, Tantan Sun, Dong Fan, Miao Yang, Peng Tian*, Zhongmin Liu*, ACS applied materials & interfaces, 10(38):32239-32246, 2018.

156)  Synthesis of high-Si hierarchical beta zeolites without mesoporogen and their catalytic application in the methanol to propene reaction. Xuebin Zhao, Linying Wang, Peng Guo, Nana Yan, Tantan Sun, Shanfan Lin, Xinwen Guo, Peng Tian*, Zhongmin Liu*, Catalysis Science & Technology,8(11):2966-2974, 2018.

157)  External surface modification of as‐made ZSM‐5 and their catalytic performance in the methanol to propylene reaction. Xuebin Zhao, Yang Hong, Linying Wang, Dong Fan, Nana Yan, Xiaona Liu, Peng Tian*, Xinwen Guo*, Zhongmin Liu*, Chinese Journal of Catalysis, 39(8):1418-1426, 2018.

158)  Synthesis of nanosized SAPO-34 with the assistance of bifunctional amine and seeds. Pengfei Wu, Miao Yang, Lijing Sun, Shu Zeng, Shutao Xu, Peng Tian*, Zhongmin liu*, CHEMICAL COMMUNICATIONS, 54(79):11160-11163, 2018.

159)  Silicoaluminophosphate molecular sieve DNL-6: Synthesis with a novel template, N,N ′-dimethylethylenediamine, and its catalytic application. Pengfei Wu, Miao Yang, Wenna Zhang, Shu Zeng, Mingbin Gao, Shutao Xu, Peng Tian*, Zhongmin liu*, Chinese Journal of Catalysis, 39(9):1511-1519, 2018.

160)  Improving the low-temperature hydrothermal stability of Cu-SAPO-34 by the addition of Ag for ammonia selective catalytic reduction of NOx. Xiao Xiang, Yi Cao, Lijing Sun, Pengfei Wu, Lei Cao, Shutao Xu, Peng Tian*, Zhongmin liu*, Applied Catalysis A, General, 551:79-87, 2018.

161)  Investigation of gas-solid bubbling fluidized beds using ECT with a modified Tikhonov regularization technique. Qiang Guo, Shuanghe Meng, Dehu Wang, Yinfeng Zhao, Mao Ye*,Wuqiang Yang,Zhongmin Liu, AIChE Journal, 64(1):29-41, 2018.

162)  Experimental Verification of Solid-like and Fluid-like States in the Homogeneous Fluidization Regime of Geldart A Particles. Qiang Guo, Shuanghe Meng, Yinfeng Zhao, Linkun Ma, Dehu Wang, Mao Ye*,Wuqiang Yang,Zhongmin Liu, Industrial & Engineering Chemistry Research, 57(7):2670-2686, 2018.

163)  High-temperature electrical capacitance tomography for gas–solid fluidised beds. Kai Huang, Shuanghe Meng, Qiang Guo, Mao Ye*, JIngjing Shen, Tao Zhang, Wuqiang Yang, Zhongmin Liu, Measurement Science and Technology, 29(10):104002, 2018.

164)  DMTO催化剂的空气再生动力学研究. Xing Xu, Yinfeng Zhao, Mao Ye*, Zhongmin Liu, Industrial Catalysis, 26(7):54-59, 2018.

165)  Analysis of particle rotation in fluidized bed by use of discrete particle model. Runjia Liu,Rui Xiao*,Mao Ye*,Zhongmin Liu, Advanced Powder Technology, 29(7):1655-1663, 2018.

166)  Sintered precipitated iron catalysts with enhanced fragmentation-resistance ability for Fischer–Tropsch synthesis to lower olefins. Yanping Chen, Youming Ni, Yong Liu, Hongchao Liu, Xiangang Ma, Shiping Liu,Wenliang Zhu*, Zhongmin Liu*, Catal. Sci. Technol., 8:5943-5954, 2018.

167)  A short review of recent advances in CO2 hydrogenation to hydrocarbons over heterogeneous catalysts. Wenhui Li, Haozhi Wang, Xiao Jiang, Jie Zhu, Zhongmin Liu, Xinwen Guo*, Chunshan Song*, RSC ADVANCES,8(14):7651-7669, 2018.

168)  ZrO2 support imparts superior activity and stability of Co catalysts for CO2 methanation. Wenhui Li, Xiaowa Nie, Xiao Jiang, Anfeng Zhang, Fanshu Ding, Min Liu, Zhongmin Liu, Xinwen Guo*, Chunshan Song*, APPLIED CATALYSIS B-ENVIRONMENTAL, 220: 397-408, 2018.

169)  The anti-sintering catalysts: Fe-Co-Zr polymetallic fibers for CO2 hydrogenation to C2 = -C4 = -rich hydrocarbons. Wenhui Li, Anfeng Zhang, Xiao Jiang, Michael J Janik, Jieshan Qiu, Zhongmin Liu, Xinwen Guo*, Chunshan Song*, JOURNAL OF CO2 UTILIZATION, 23:219-225, 2018.

170)  Frontiers of Catalysis Chemistry and Technology. Zhongmin Liu, Jinzhe Li, FRONTIERS OF CHEMICAL SCIENCE AND ENGINEERING, 12(1):1-2, 2018.

171)  Effect of mass-transfer control on HY zeolites for dimethoxymethane carbonylation to methyl methoxyacetate. Dongxi Zhang, Lei Shi, Yan Wang, Fei Chen, Jie Yao, Jie Yao, Xinyu Li, Youming Ni, Wenliang Zhu, Zhongmin Liu*, CATALYSIS TODAY, 316:114-121, 2018.

172)  Partial Regeneration of the Spent SAPO-34 Catalyst in the Methanol-to-Olefins Process via Steam Gasification. Jibin Zhou, Jinling Zhang, Yuchun Zhi, Jianping Zhao, Tao Zhang, Mao Ye*, Zhongmin Liu, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 57(51):17338-17347, 2018.

173)  A highly efficient sulfonic acid resin for liquid-phase carbonylation of dimethoxymethane. Fei Chen, Lei Shi*, Jie Yao, Yan Wang, Dongxi Zhang, Wenliang Zhu, Zhongmin Liu*, CATALYSIS SCIENCE & TECHNOLOGY, 8(2):580-590, 2018.

174)  Comparative study of MTO kinetics over SAPO-34 catalyst in fixed and fluidized bed reactors.Xiaoshuai Yuan, Hua Li, Mao Ye, Zhongmin Liu*, CHEMICAL ENGINEERING JOURNAL, 329:35-44, 2017.

175)  Advances in Catalysis for Methanol-to-Olefins Conversion, Shutao Xu, Yuchun Zhi, Jingfen Han, Wenna Zhang, Xinqiang Wu,Tantan Sun, Yingxu Wei, Zhongmin Liu*,Advances in Catalysis, 61:37 -122,2017.

176)  A numerical study of the bubble induced pressure fluctuation in gas-fluidized beds, Yuli Zhang, Rui Xiao, Mao Ye, Zhongmin liu, Rui Xiao*,POWDER TECHNOLOGY,314:387- 399, 2017.

177)  Recent advances of the nano-hierarchical SAPO-34 in the methanol-to-olefin (MTO) reaction and other applications,Jiawei Zhong, Jingfeng Han, Xuying Wei, Chunshan Song, Zhongmin Liu*, Catalysis Science & Technology, 7(21):4905-4923, 2017.

178)  Synthesis of SAPO-34 nanoaggregates withthe assistance of an inexpensive three-in-onenon-surfactant organosilane, Pengfei Wu, Miao Yang, Wenna Zhang, Shutao Xu, Peng Guo, Peng Tian, Zhongmin Liu*,CHEMICAL COMMUNICATIONS, 53:4985-4988, 2017.

179)  Investigation of methanol conversion over high-Sibeta zeolites and the reaction mechanism of theirhigh propene selectivity, Xuebin Zhao, Linying Wang, Jinzhe Li, Shutao Xu, Wenna Zhang, Yingxu Wei, Xinwen Guo, Peng Tian, Zhongmin Liu*,Catalytic Science and Technology,7:5882-5892, 2017.

180)  Numerical simulation of scale-up effects of methanol-to-olefins fluidized bed reactors, Bona Lu, Jingyuan Zhang, Hao Luo, Wei Wang, hua li, mao ye*, Zhongmin liu, Jinghai Li, wangwei, CHEMICAL ENGINEERING SCIENCE, 171:244-255, 2017.

181)  Comparative investigation of the MTH induction reaction over HZSM-5 and HSAPO-34 catalysts, You Zhou, Liang Qi, Yingxu Wei, Zhongmin Liu*,Molecular Catalysis,433:20- 27, 2017.

182)  磺酸树脂催化甲缩醛一步羰化制高附加值甲氧基乙酸甲酯. Lei Shi, Jie Yao, Wenliang Zhu, Zhongmin Liu*, Journal of Chemical Engineering, 68(10):3739- 3746, 2017.

183)  Direct Mechanism of the First Carbon, Xinqian Wu, Shutao Xu, Wenna Zhang, Jindou Huang, Jinzhe Li, Bowen Yu, Yingxu Wei, Zhongmin Liu*,Angewandte Chemie International Edition, 129(31) :9167-9171, 2017.

184)  Low Temperature CO2 Methanation: ZIF-67-Derived Co-Based Porous Carbon Catalysts with Controlled Crystal Morphology and Size. Wenhui Li, Anfeng Zhang, Xiao Jiang, Chen Chen, Zhongmin Liu, Chunshan Song*, Xinwen Guo*, ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 5(9):7824-7831, 2017.

185)  Interconnected Hierarchical ZSM-5 with Tunable Acidity Prepared by a Dealumination-Realumination Process: A Superior MTP Catalyst. Junjie Li, Min Liu, Xinwen Guo, Shutao Xu, Yingxu Wei, Zhongmin Liu, Chunshan Song*, ACS APPLIED MATERIALS & INTERFACES. 9(31):26096-26106, 2017.

186)  A green route for methanol carbonylation. Youming Ni, Lei Shi, Hongchao Liu, Wenna Zhang, Yong Liu, Wenliang Zhu*, Zhongmin Liu*, CATALYSIS SCIENCE & TECHNOLOGY, 7(20):4818-4822, 2017.

187)  Investigation of low-temperature hydrothermal stability of Cu-SAPO-34 for selective catalytic reduction of NOx with NH3. Xiao Xiang, Pengfei Wu, Yi Cao, Lei Cao, Quanyi Wang, Shutao Xu, Peng Tian, Zhongmin Liu*, CHINESE JOURNAL OF CATALYSIS, 38(5): 918-927, 2017.

188)  A green route to methyl acrylate and acrylic acid by an aldol condensation reaction over H-ZSM-35 zeolite catalysts. Zhanling Ma, Xiangang Ma, Hongchao Liu, Yanli He, Wenliang Zhu*,Xinwen Guo, Zhongmin Liu*, CHEMICAL COMMUNICATIONS, 53(65): 9071-9074, 2017.

189)  Direct structural identification of carbenium ions and investigation of host-guest interaction in the methanol to olefins reaction obtained by multinuclear NMR correlations. Dong Xiao, Shutao Xu, Xiuwen Han, Xinhe Bao, Zhongmin Liu, Fraderic Blanc*, CHEMICAL SCIENCE, 8(12): 8309-8314, 2017.

190)  Unusual deactivation of HZSM-5 zeolite in the methanol to hydrocarbon reaction. Liang Qi, Jinzhe Li, Linying Wang, Lei Xu*, Zhongmin Liu*,  CATALYSIS SCIENCE & TECHNOLOGY,7 (4): 894-901, 2017.

191)  SAPO-34 synthesized with n-butylamine as a template and its catalytic application in the methanol amination reaction. Yuyan Qiao, Pengfei Wu, Xiao Xiang, Miao Yang, Quanyi Wang, Peng Tian*, Zhongmin Liu, CHINESE JOURNAL OF CATALYSIS, 38(3):574-582, 2017.

192)  Insights into the aminothermal crystallization process of SAPO-34 and its comparison with hydrothermal system. BeiBei Gao, Dong Fan, Lijing Sun, Hongyu An, Fengtao Fan,Shutao Xu, Peng Tian*, Zhongmin Liu*, MICROPOROUS AND MESOPOROUS MATERIALS, 248:204-213, 2017.

193)  Comparative investigation of the deactivation behaviors over HZSM-5 and HSAPO-34 catalysts during low-temperature methanol conversion. Liang Qi, Jinzhe Li, Linying Wang, Chan Wang, Lei Xu*, Zhongmin Liu*, CATALYSIS SCIENCE & TECHNOLOGY, 7(10):2022-2031, 2017.

194)  Attrition of methanol to olefins catalyst in jet cup. Jingai Hao, Yinfeng Zhao, Mao Ye*, Zhongmin Liu, POWDER TECHNOLOGY, 316:79-86, 2017.

195)  Methanol to hydrocarbons reaction over H-β zeolites studied by high resolution solid-state NMR spectroscopy: Carbenium ions formation and reaction mechanism. Mozhi Zhang, Shutao Xu, Jinzhe Li, Yingxu Wei*, Yanjun Gong, Yueying Chu, Anmin Zheng, Jinbang Wang, Wenna Zhang, Xinqiang Wu, Feng Deng, Zhongmin Liu*, Journal of Catalysis, 335:47–57, 2016.

196)  Direct observation of methylcyclopentenyl cations (MCP+) and olefin generation in methanol conversion over TON zeolite. Jinbang Wang, Yingxu Wei*, Jinzhe Li, Shutao Xu, Wenna Zhang, Yanli He, Jingrun Chen, Mozhi Zhang, Anmin Zheng, Feng Deng, Xinwen Guo,  Zhongmin Liu*, Catalysis Science & Technology, 6(1):89-97, 2016.

197)  Changing the balance of the MTO reaction dual-cycle mechanism: Reactions over ZSM-5 with varying contact times, Mozhi Zhang. Shutao Xu, Yingxu Wei*, Jinzhe Li, Jinbang Wang, Wenna Zhang, Shushu Gao, Zhongmin Liu*, Chinese Journal of Catalysis,  37(8) :1413-1422,2016.

198)  Influences of the confinement effect and acid strength of zeolite on the mechanisms of Methanol-to-Olefins conversion over H-ZSM-5: A theoretical study of alkenes-based cycle. Wenna Zhang, Yueying Chu, Yingxu Wei, Xianfeng Yi, Shutao Xu, Jindou Huang, Mozhi Zhang, Anmin Zheng*, Feng Deng, Zhongmin Liu*, Microporous and Mesoporous Materials, 231:216-229, 2016.

199)  SAPO-34 templated by dipropylamine and diisopropylamine: synthesis and catalytic performance in the methanol to olefin (MTO) reaction. Dong Fan,  Peng Tian,*  Shutao Xu,  Dehua Wang,  Yue Yang,  Jinzhe Li, Quanyi Wang,  Miao Yang, Zhongmin Liu*, New J. Chem., 40(5):4236-4244, 2016.

200)   A low-temperature approach to synthesize low silica SAPO-34 nanocrystals and their application in the methanol-to-olefins (MTO) reaction. Beibei Gao,  Miao Yang,  Yuyan Qiao,  Jinzhe Li,  Xiao Xiang,  Pengfei Wu, Yingxu Wei,  Shutao Xu,  Peng Tian*,  Zhongmin Liu*, Catal. Sci. Technol., 6(20):7569-7578, 2016.

201)   A reconstruction strategy to synthesize mesoporous SAPO molecular sieve single crystals with high MTO catalytic activity. Chan Wang,  Miao Yang,  Mingrun Li,  Shutao Xu,  Yue Yang,  Peng Tian*, Zhongmin Liu*,  Chem. Commun., 52(38):6463-6466,2016.

202)  Creation of hollow SAPO-34 single crystals via alkaline or acid etching. Yuyan Qiao,  Miao Yang,  Beibei Gao,  Linying Wang,  Peng Tian,*  Shutao Xu , Zhongmin Liu*, Chem. Commun., 52(33):5718-5721,2016.

203)  Microporous Aluminophosphate ULM-6: Synthesis, NMR Assignment and Its Transformation to AlPO4‑14 Molecular Sieve. Dehua Wang,  Shutao Xu,  Miao Yang,  Yueying Chu,  Peng Tian*, Zhongmin Liu*, J. Phys. Chem. C, 120(22):11854−11863,2016.

204)  Direct Cu2+ ion-exchanged into as-synthesized SAPO-34 and its catalytic application in the selective catalytic reduction of NO with NH3. Xiao Xiang, Miao Yang, Beibei Gao, Yuyan Qiao, Peng Tian,* Shutao Xu, Zhongmin Liu* , RSC ADVANCES, 6(15):12544-12552,2016.

205)  Hollow nanocrystals of silicoaluminophosphate molecular sieves synthesized by an aminothermal co-templating strategy. Dehua Wang, Miao Yang, Wenna Zhang, Dong Fan, Peng Tian*, Zhongmin Liu*, CrystEngComm, 18(6):1000-1008,2016.

206)  Role of naphthalene during the induction period of methanol conversion on HZSM-5 zeolite. Liang Qi, Jinzhe Li, Yingxu Wei, Lei Xu* and Zhongmin Liu*, Catalysis Science & Technology, 6(11) :3737-3744,2016.

207)  Influence of acid site density on the Three-staged MTH Induction Reaction over HZSM-5 Zeolite. Liang Qi, Jinzhe Li, Yingxu Wei, Yanli He, Lei Xu*, Zhongmin Liu*, RSC ADVANCES, 6(57) :52284-52291,2016.

208)  Evolution of the reaction mechanism during the MTH induction period over the 2-dimensional FER Zeolite.Liang Qi, Jinzhe Li, Lei Xu*, Zhongmin Liu*, RSC ADVANCES, 6(61):56698-56704,2016.

209)  In situ DRIFT study of dimethyl ether carbonylation to methyl acetateon H-mordenite. Hui Zhou, Wenliang Zhu, Lei Shi, Hongchao Liu, Shiping Liu, Youming Ni, Yong Liu, Yanli He, Shuliang Xu, Lina Li, Zhongmin Liu*, Journal of Molecular Catalysis A:Chemical, 417:1-9,2016.

210)  Acetylene hydrochlorination over 13X zeolite catalysts at high temperature. Zhijia Song, Guangye Liu, Dawei He, Xiaodong Pang, Yansi Tong, Yaqi Wu, Danhua Yuan, Zhongmin Liu*, Yunpeng Xu*,Green Chem, 18(22):5994-5998, 2016.

211)  Hydrothermal synthesis of high silica zeolite Y using tetraethylammonium hydroxide as a structure-directing agent.Dawei He, Danhua Yuan, Zhijia Song, Yansi Tong, Yaqi Wu, Shutao Xu, Yunpeng Xu*, Zhongmin Liu*, Chem.Commun., 52(86):12765-12768,2016.

212)  ECT测量A类颗粒初始流化特性. Qin Luo, Yuli Zhang , Yinfeng Zhao, Mao Ye*, Zhongmin Liu, Journal of central south university (natural science edition), 47(11) :3916-3921, 2016.

213)  On the rotation of a circular porous particle in 2D simple shear flow with fluid inertia. Journal of Fluid Mechanics. Chenggong Li, Mao Ye*, Zhongmin Liu,  808:R3-1-R3-12, 2016.

214)  A multi-region model for reaction-diffusion process within a porous catalyst pellet. Hua Li, Mao Ye*, Zhongmin Liu, Chemical Engineering Science, 147:1-12, 2016.

215)  Speeding up CFD simulation of fluidized bed reactor for MTO by coupling CRE model. Bona Lu, Hao Luo, Hua Li, Wei Wang*, Mao Ye*, Zhongmin Liu, Jinghai Li, Chemical Engineering Science, 143:341-350,2016.

216)  Influence of temperature on fluidized-bed catalyst attrition behavior. Jingai Hao, Yinfeng Zhao, Mao Ye*, Zhongmin Liu, Chemical Engineering & Technology, 39(5) :927-934,2016.

217)  Organophosphorous surfactant-assistant synthesis of SAPO-34 molecular sieve with special morphology and improved MTO performance. Chan Wang, Miao Yang, Wenna Zhang, Xiong Su, Shutao Xu, Peng Tian*, Zhongmin Liu*, RSC ADVANCES, 6(53):47864-47872, 2016.

218)  Methanol conversion on ZSM-22, ZSM-35 and ZSM-5 zeolites: effects of 10-membered ring zeolite structures on methylcyclopentenyl cations and dual cycle mechanism. Mozhi Zhang, Shutao Xu, Yingxu Wei*, Jinzhe Li, Jingrun Chen, Jinbang Wang, Wenna Zhang, Shutao Xu, Xiujie Li, Congxin Wang, Zhongmin Liu*, RSC ADVANCES, 6(98): 95855-95864, 2016.

219)  Methanol-to-olefin induction reaction over SAPO-34. You Zhou, Liang Qi, Yingxu Wei, Cuiyu Yuan, Mozhi Zhang, Zhongmin Liu*, CHINESE JOURNAL OF CATALYSIS, 37(9):1496-1501, 2016.

220)  A bioscaffolding strategy for hierarchical zeolites with a nanotube-trimodal network. Guannan Li, Haibo Huang, Bowen Yu, Yun Wang, Jiawei Tao, Yingxu Wei, Shougui Li, Zhongmin Liu*, Yan Xu, Ruren Xu, CHEMICAL SCIENCE, 7(2):1582-1587, 2016.

221)  The effect of ethanol on the performance of CrOx/SiO2 catalysts during propane dehydrogenation. Lina Li, Wenliang Zhu, Lei Shi, Yong Liu, Hongchao Liu, Youming Ni, Shiping Lium Hui Zhou, Zhongmin Liu*, CHINESE JOURNAL OF CATALYSIS, 37(3):359-366,2016.

222)  Reaction behaviors and kinetics during induction period of methanol conversion on HZSM 5 zeolite, Liang Qi, Yingxu Wei, Lei Xu*, Zhongmin Liu*, ACS Catalysis, 5(7):3973-3982, 2015. 11.49

223)  Promotion effect of Fe in mordenite zeolite on carbonylation of dimethyl ether to methyl acetate. Hui Zhou, Wenliang Zhu, Lei Shi, Hongchao Liu, Shiping Liu, Shutao Xu, Youming Ni, Yong Liu, Lina Li, Zhongmin Liu*, The Royal Society of Chemistry, 5(3):1961-1968, 2015.

224)  Methanol to olefins (MTO): From Fundamental to Commercialization. Peng Tian, Yingxu Wei, Mao Ye, Zhongmin Liu*, ACS Catalysis, 5(3):1922-1938, 2015.

225)  Synthesis of hierarchical beta zeolite by using a bifunctional cationic polymer and the improved catalytic performance. Yangyang Yuan, Peng Tian, Mian Yang, Dong Fan, linying Wang, Shutao Xu, Chan Wang, Dehua Wang, Yue Yang, Zhongmin Liu*, RSC Advances, 5(13) :9852-9860, 2015.

226)  Dual template-directed synthesis of SAPO-34 nanosheet assemblies with improved stability in the methanol to olefins reaction. Chan Wang, Miao Yang, Peng Tian, Shutao Xu, Yue Yang, Dehua Wang, Yangyang Yuan, Zhongmin Liu*, J. Mater. Chem. A, 3(10):5608-5616, 2015.

227)  N-methyldiethanolamine: A multifunctional structure-directing agent for the synthesis of SAPO and AlPO molecular sieves. Wang Dehua, Tian Peng, Fan Dong, Yang Miao, Gao Beibei, Qiao Yuyan, Wang Chan, Zhongmin Liu*, Journal of Colloid and Interface Science, 445:119-126, 2015.

228)  Investigation of the Strong Brønsted Acidity in a Novel SAPO-type Molecular Sieve, DNL-6. Xiong Su, Shutao Xu, Peng Tian, Jinzhe Li, Anmin Zheng, Qiang Wang, Miao Yang, Yingxu Wei, Feng Deng, Zhongmin Liu*, J. Phys. Chem. C, 119(5), 2589-2596, 2015.

229)  Emulsion Phase Expansion of Geldart A Particles in Bubbling Fluidized Bed Methanation Reactors: a CFD-DEM Study. Yuli Zhang, Mao Ye, Yinfeng Zhao, Tong Gu, Rui Xiao, Zhongmin Liu*, Powder Technology, 275:199-210, 2015.

230)  Cavity Controls the Selectivity: Insights of Confinement Effects on MTO Reaction. Jinzhe Li, Yingxu We, Jingrun Chen, Shutao Xu, Peng Tian, Xiaofeng Yang, Bing Li, Jinbang Wang, Zhongmin Liu*, ACS Catalysis, 5(2):661-665, 2015.

231)  A seven lumped kinetic model for industrial catalyst in DMTO process. Lei Ying, Xiaoshuai Yuan, Mao Ye*, Youwei Cheng, Xi Li, Zhongmin Liu, CHEMICAL ENGINEERING RESEARCH & DESIGN, 100:179-191, 2015.

232)  Facile preparation of nanocrystal-assembled hierarchical mordenite zeolites with remarkable catalytic performance. Yangyang Yuan, Linying Wang, Hongchao Liu, Peng Tian, Miao Yang, Shutao Xu, Zhongmin Liu*, CHINESE JOURNAL OF CATALYSIS, 36(11):1910-1919, 2015.

233)  Imidazolium-based ionic liquids as novel organic SDA to synthesize high-silica Y zeolite. Danhua Yuan, Dawei He, Shutao Xu, Zhijia Song, Mozhi Zhang, Yingxu Wei, Yanli He, Shuliang Xu, Zhongmin Liu*, Yunpeng Xu*, MICROPOROUS AND MESOPOROUS MATERIALS, 204:1-7, 2015.

234)  In situ growth and assembly of microporous aluminophosphate nanosheets into ordered architectures at low temperature and their enhanced. BeiBei Gao, Peng Tian, Mingrun Li, Miao Yang, Yuyan Qiao,Linying Wang, Zhongmin Liu*, JOURNAL OF MATERIALS CHEMISTRY A, 3(15):741-7749, 2015.

235)  Phosphorous-modified ordered mesoporous carbon for catalytic dehydrogenation of propane to propylene. Lina Li, Wenliang Zhu, Yong Liu, Lei Shi,  Hongchao Liu, Youming Ni, Shiping Liu, Hui Zhou, Zhongmin Liu*, RSC ADVANCES, 5(69):6304-56310, 2015.

236)  An approach to prepare nanosized HZSM-22 with enhanced lifetime in the methanol to hydrocarbon (MTH) reaction. Jinbang Wang, Shutao Xu, Jinzhe Li, Yuchun Zhi, Mozhi Zhang, Yanli He, Yingxu Wei*, Xinwen Guo, Zhongmin Liu*, RSC ADVANCES, 5(108): 88928-88935, 2015.

237)  Attrition of methanol to olefins catalyst with high-velocity air jets at elevated temperature. Jingai Hao, Yinfeng Zhao, Mao Ye*, Zhongmin Liu, ADVANCED POWDER TECHNOLOGY, 26(3):734-741, 2015.

238)  Cationic surfactant-assisted hydrothermal synthesis: an effective way to tune the crystalline phase and morphology of SAPO molecular sieves. Miao Yang, Peng Tian, Lin Liu, Chan Wang, Shutao Xu, Yanli He, Zhongmin Liu*, CRYSTENGCOMM, 17(44): 8555-8561, 2015.

239)  Activity enhancement of Nafion resin: Vapor-phase carbonylation of dimethoxymethane over Nafion-silica composite. Shiping Liu, Wenliang Zhu, Lei Shi, Hongchao Liu, Yong Liu, Youming Ni, Lina Lim Hui Zhou, Shutao Xu, Yanli He, Zhongmin Liu*, APPLIED CATALYSIS A-GENERAL, 197:153-159, 2015.

240)  Methanol to hydrocarbons reaction over HZSM-22 and SAPO-11: Effect of catalyst acid strength on reaction and deactivation mechanism. Jinbang Wang, Jinzhe Li, Shutao Xu, Yuchun Zhi, Yingxu Wei, Yanli He, Jingrun Chen, Mozhi Zhang, Quanyi Wang, Wenna Zhang, Xinqiang Wu, Xinwen Guo*, Zhongmin Liu, Chineses Journal of Catalysis, 36(8):1392-1402, 2015.

241)  MTO Processes Development: The Key of Mesoscale Studies. Mao Ye*, Hua Li, Yinfeng Zhao, Tao Zhang, Zhongmin Liu, Advances in Chemical Engineering, 47:279-335, 2015.

242)  Elucidating the olefin formation mechanism in the methanol to olefin reaction over AlPO-18and SAPO-18. Jingrun Chen, Jinzhe Li, Cuiyu Yuan, Shutao Xu, Yingxu Wei*, Quanyi Wang, You Zhou, Jinbang Wang, Mozhi Zhang, Yanli He, Shuliang Xu, Zhongmin Liu*, Catalysis Science & Technology, 4(9) :3268-3277, 2014.

243)  Heptamethylbenzenium cation formation and the correlated reaction pathway during methanol-to-olefins conversion over DNL-6. Jinzhe Li, Yingxu Wei, Shutao Xu, Peng Tian, Jingrun Chen, Zhongmin Liu*, Catalysis Today, 226:47-51, 2014.

244)  Synthesis of mesoporous ZSM-5 catalysts using different mesogenous templates and their application in methanol conversion for enhanced catalyst lifespan. Quanyi Wang, Shutao Xu, Jingrun Chen, Yingxu Wei*, Jinzhe Li, Dong Fan, Zhengxi Yu, Yue Qi, Yanli He, Shuliang Xu, Cuiyu Yuan, You Zhou, Jinbang Wang, Mozhi Zhang, Baolian Su*, Zhongmin Liu*, RSC Advances, 4(41) :21479-21491, 2014.

245)  Synthesis of ZSM-2 nanocrystals at ambient temperature. Danhua Yuan, Shutao Xu, Mozhi Zhang, Yingxu Wei, Xinglong Dong, Yanli He, Shuliang Xu, Zhongmin Liu*, Yunpeng Xu*, Microporous and Mesoporous Materials, 185:149-156, 2014.

246)  Spatial confinement effects of cage-type SAPO molecular sieves on product distribution and coke formation in methanol-to-olefin reaction. Jingrun Chen, Jinzhe Li, Yingxu Wei, Cuiyu Yuan, Bing Li, Shutao Xu, You Zhou, Jinbang Wang, Mozhi Zhang, Zhongmin Liu*, Catalysis Communications, 46:36-40, 2014.

247)  Highly selective synthesis of para-cresol by conversion of anisole on ZSM-5 zeolites. Kunyuan Wang, Xinglong Dong, Zhaoan Chen, Yanli He, Yunpeng Xu, Zhongmin Liu*, Microporous and Mesoporous Materials, 185:61-65, 2014.

248)  A top-down approach to prepare silicoaluminophosphate molecular sieve nanocrystals with improved catalytic activity. Miao Yang, Peng Tian, Chan Wang, Yangyang Yuan, Yue Yang, Shutao Xu, Yanli He, Zhongmin Liu*, Chemical Communications, 50(15) :1845-1847, 2014.

249)  Seed-assisted synthesis of high silica ZSM-35 through interface-induced growth over MCM-49 seeds. Linying Wang, Peng Tian, Yangyang Yuan, Miao Yang, Dong Fan, Hui Zhou, Wenliang Zhu, Shutao Xu, Zhongmin Liu*, Microporous and Mesoporous Materials, 196: 89-96, 2014.

250)  Synthesis of SAPO-34 with alkanolamines as novel templates and their application for CO2 separation. Dehua Wang, Peng Tian, Miao Yang, Shutao Xu, Dong Fan, Xiong Su, Yue Yang, Chan Wang, Zhongmin Liu*, Microporous and Mesoporous Materials, 194:8-14, 2014.

251)  Synthesis of mesoporous ZSM-5 using a new gemini surfactant as a mesoporous directing agent: A crystallization transformation process. Quanyi Wang, Yingxu Wei*, Shutao Xu, Mozhi Zhang, Shuanghe Meng, Dong Fan, Yue Qi, Jinzhe Li, Zhengxi Yu, Cuiyu Yuan, Yanli He, Shuliang Xu, Jingrun Chen, Jinbang Wang, Baolian Su*, Zhongmin Liu*, Chinese Journal of Catalysis, 35(10) :1727-1739, 2014.

252)  The production of light olefins by catalytic cracking of the microalga Isochrysis zhanjiangensis over a modified ZSM-5 catalyst. Xinglong Dong, Song Xue, Jinling Zhang, Wei Huang, Jiannan Zhou, Zhaoan Chen, Danhua Yuan, Yunpeng Xu*, Zhongmin Liu*, Chinese Journal of Catalysis, 35(5) :684-691, 2014.

253)  A highly efficient Nafion-H catalyst for vapour phase carbonylation of dimethoxymethane. Shiping Liu, Wenliang Zhu, Lei Shi, Hongchao Liu, Yong Liu, Youming Ni, Lina Li, Hui Zhou, Shutao Xu, Zhongmin Liu*, RSC Advances, 4(77) :40999-41002, 2014.

254)  电容层析成像在气固流化床测量中的应用. Qin Luo, Yinfeng Zhao, Mao Ye, Zhongmin Liu* , Journal of chemical engineering, 65(7) :2504-2512, 2014.

255)  Improved Selectivity toward Light Olefins in the Reaction of Toluene with Methanol Over the Modified HZSM-5 Catalyst. Yi Bi, Yingli Wang, Yingxu Wei, Yanli He, Zhengxi Yu, Zhongmin Liu*, Lei Xu*, CHEMCATCHEM, 6(3) :713-718, 2014.

256)  Direct Observation of Cyclic Carbenium Ions and Their Role in the Catalytic Cycle of the Methanol-to-Olefin Reaction over Chabazite Zeolites, Shutao Xu, Anmin Zheng, Yingxu Wei, Jingrun Chen, Jinzhe Li, Yueying Chu, Mozhi Zhang, Zhongmin Liu*, Angewandte Chemie (International ed), 52 (44) :11564-11568, 2013.

257)  Modification of nanocrystalline HZSM-5 zeolite with tetrapropylammonium hydroxide and its catalytic performance in methanol to gasoline reaction. Yingping He, Min Liu, Chengyi DAI, Shutao Xu, Yingxu Wei, Zhongmin Liu, Xinwen Guo*, Chinese Journal of Catalysis, 34 (6) :1148-1158, 2013.

258)  Preparation of a microalgal photoanode for hydrogen production by photo-bioelectrochemical water-splitting, Zhaoan Chen, Yanxia Lyu, Kunyuan Wang, Xinglong Dong, Maicun Deng, Changmin Bai, Yunpeng Xu, Zhongmin Liu*, International Journal of Hydrogen Energy, 38(29):13045-13049, 2013.

259)  Synthesis of DNL-6 with a high concentration of Si (4 Al) environments and its application in CO(2) separation, Xiong Su, Peng Tian, Dong Fan, Qinghua Xia, Yue Yang, Shutao Xu, Lin Zhang, Zhongmin Liu *, ChemSusChem, 6 (5) :911-918, 2013.

260)  Synthesis of SAPO-35 molecular sieve and its catalytic properties in the methanol-to-olefins reaction. Bing Li, Peng Tian, Jinzhe LI, Jingrun Chen, Yangyang Yuan, Xiong Su, Dong Fan, Zhongmin Liu*, Chinese Journal of Catalysis, 34 (4) :798-807, 2013.

261)  Study of crystallization process of SAPO-11 molecular sieve. Bing Li Peng Tian, Yue Qi, Lin Zhang, Shutao Xu, Xiong Su, Dong Fan, Zhongmin Liu*, Chinese Journal of Catalysis, 34 (3) :593-603, 2013.

262)  Aminothermal synthesis of CHA-type SAPO molecular sieves and their catalytic performance in methanol to olefins (MTO) reaction. Dong Fan, Peng Tian, Xiong Su, Yangyang Yuan, Dehua Wang, Chan Wang, Miao Yang, Zhongmin Liu*, Journ al of Materials Chemistry A, 1:14206-14213, 2013.

263)  3D Numerical Simulation of a Large Scale MTO Fluidized Bed Reactor. Yinfeng Zhao, Hua Li, Mao Ye*, Zhongmin Liu, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 52(33):11354-11364, 2013.

264)  Investigation of the Crystallization Process of SAPO-35 and Si Distribution in the Crystals. Peng Tian, Bing Li, Shutao Xu, Xiong Su, Dehua Wang, Lin Zhang, Dong Fan, Yue Qi, Zhongmin Liu*, JOURNAL OF PHYSICAL CHEMISTRY C, 117(8):4048-4056, 2013.

265)  Catalytic pyrolysis of microalga Chlorella pyrenoidosa for production of ethylene, propylene and butene. Xinglong Dong, Zhaoan Chen, Song Xue, Jinling Zhang, Jiannan Zhou, yannan Liu, Yunpeng Xu*, Zhongmin Liu*, 3(48):25780-25787, 2013.

266)  Nanosize-enhanced lifetime of SAPO-34 catalysts in methanol-to-olefin reactions. Guoju Yang,Yingxu Wei,Shutao Xu,Jingrun Chen,Jinzhe Li,Zhongmin Liu*,Jihong Yu*,Ruren Xu, Journal of Physical Chemistry C, 117(16):8214-8222, 2013.

267)  Observation of Heptamethylbenzenium Cation over SAPO-Type Molecular Sieve DNL-6 under Real MTO Conversion Conditions. Jinzhe Li, Yingxu Wei, Jingrun Chen, Peng Tian, Xiong Su, Shutao Xu, Yue Qi, Quanyi Wang, You Zhou, Yanli He,  Zhongmin Liu*, J. Am. Chem. Soc., 134 (2) :836–839, 2012.

268)  Generation of diamondoid hydrocarbons as confined compounds in SAPO-34 catalyst in the conversion of methanol. Yingxu Wei, Jinzhe Li, Cuiyu Yuan, Shutao Xu,You Zhou, Jingrun Chen, Quanyi Wang, Qing Zhang and Zhongmin Liu*, Chem. Commun.,  48(25) :3082-3084, 2012.

269)  Coke Formation and Carbon Atom Economy of Methanol-to-Olefins Reaction. Yingxu Wei, Cuiyu Yuan, Jinzhe Li, Shutao Xu, You Zhou, Jingrun Chen, Quanyi Wang, Lei Xu, Yue Qi, Qing Zhang, Zhongmin Liu*, ChemSusChem, 5(5) :906-912, 2012.

270)  A novel solvothermal approach to synthesize SAPO molecular sieves using organic amines as the solvent and template. Dong Fan, Peng Tian, Shutao Xu, Qinghua Xia, Xiong Su, Lin Zhang, Ying Zhang, Yanli He and Zhongmin Liu*, J. Mater. Chem., Advance Article, 22(14) :6568-6574, 2012.

271)  Multimodal Zr-Silicalite-1 zeolite nanocrystal aggregates with interconnected hierarchically micro-meso-macroporous architecture and enhanced mass transport property. Li-Hua Chen, Shutao Xu, Xiao-Yun Li, Ge Tian, Yu Li, Joanna Claire Rooke, Guang-Shan Zhu, Shi-Lun Qiu, Yingxu Wei, Xiao-Yu Yang, Zhongmin Liu* and Bao-Lian Su*, Journal of Colloid and Interface Science, 377(1) :368-374, 2012.

272)  二乙胺导向合成 SAPO-34 及与其它模板剂的对比. Guangyu Liu, Peng Tian and Zhongmin Liu*, Chinese Journal of Catalysis, 33(1) :174-182, 2012.

273)  振荡天平结合微反研究程序升温条件下SAPO-34催化的甲醇转化. Cuiyu Yuan, Yingxu Wei, Lei Xu, Jinzhe Li, Shutao Xu, You Zhou, Jingrun Chen, Quanyi Wang and Zhongmin Liu*, Chinese Journal of Catalysis, 33(5) :768-770, 2012.

274)  程序升温条件下甲醇转化反应及流化床催化剂SAPO-34的积碳. Cuiyu Yuan, Yingxu Wei, Jinzhe Li, Shutao Xu, You Zhou, Jingrun Chen, Quanyi Wang, Lei Xu and Zhongmin Liu*,Chinese Journal of Catalysis, 33(2) :367-374, 2012.

275)  Methyl Halide to Olefins and Gasoline over Zeolites and SAPO Catalysts: A New Route of MTO and MTG. Yingxu Wei, Zazhi Zhang, Zhongmin Liu* , Baolian Su*, Chinese Journal of Catalysis, 33(1), 11-21, 2012.

276)  核壳型SAPO-34/AlPO-18 分子筛的制备及生长机理. Lin Zhang, Peng Tian, Xiong Su, Dong Fan, Dehua Wang,  Zhongmin Liu*, Chinese Journal of Catalysis, 33(10) :1724-1729, 2012.

277)  An effective route to improve the catalytic performance of SAPO-34 in the methanol-to-olefin reaction. Guangyu Liu, Peng Tian, Qinghua Xia, Zhongmin Liu*, Journal of Natural Gas Chemistry, 21(4) :431-434, 2012.

278)  Comparative study of MTO conversion over SAPO-34, H-ZSM-5 and H-ZSM-22: Correlating catalytic performance and reaction mechanism to zeolite topology. Jinzhe Li, Yingxu Wei, Guangyu Liu, Yue Qi, Peng Tian, Bing Li, Yanli He, Zhongmin Liu*, Catalysis Today, 171(1) :221-228, 2011.

279)  Conversion of methanol over H-ZSM-22: The reaction mechanism and deactivation. Jinzhe Li, Yingxu Wei, Yue Qi, Peng Tian, Bing Li, Yanli He, Fuxiang Chang, Xinde Sun, Zhongmin Liu*, Catalysis Today, 164(1) : 288-292, 2011.

280)  Hierarchically structured meso-macroporous aluminosilicates with high tetrahedral aluminium content in acid catalysed esterification of fatty acids. Lemaire Arnaud, Quanyi Wang, Yingxu Wei, Zhongmin Liu*, Baolian Su*, Journal of Colloid and Interface Science, 363(2) :511-520, 2011.

281)  Phase-Transformation Synthesis of SAPO-34 and a Novel SAPO Molecular Sieve with RHO Framework Type from a SAPO-5 Precursor. Peng Tian, Xiong Su, Yingxia Wang, Qinghua Xia, Ying Zhang, Dong Fan, Shuanghe Meng, Zhongmin Liu*, Chemistry of Materials, 23(6) :1406-1413, 2011.

282)  Synthesis and characterization of DNL-6, a new silicoaluminophosphate molecular sieve with the RHO framework. Xiong Su, Peng Tian, Jinzhe Li, Ying Zhang, Shuanghe Meng, Yanli He, Dong Fan, Zhongmin Liu*, Microporous and Mesoporous Materials, 144(1-3) :113-119, 2011.

283)  Synthesis of mesoporous Zr-P-Al materials with high BET specific surface area without calcination. Ziyu Liu, Yue Qi, Yingxu Wei, Zongbin Wu, Zhongmin Liu*, Advanced Materials Research, 287-290(1-4):2094-2101, 2011.

284)  Well-Organized Zeolite Nanocrystal Aggregates with Interconnected Hierarchically Micro–Meso–Macropore Systems Showing Enhanced Catalytic Performance. Xiao-Yu Yang*, Ge Tian, Li-Hua Chen, Yu Li, Joanna C. Rooke, Yingxu Wei, Zhongmin Liu, Zhao Deng, Gustaaf Van & Tendeloo, Baolian Su*, Chemistry-A European Journal, 17( 52) :14987-14995, 2011.

285)  Syntheses, Crystal Structures, and Luminescence Properties of Three Novel Lead Carboxyphosphonates with 3D Framework Structures Using Rigid Aromatic Carboxylic Acids as Second Organic Ligands. Kai Chen, Zhen-Gang Sun*, Yan-Yu Zhu, Zhongmin Liu, Fei Tong, Da-Peng Dong, Jing Li, Crystal Growth & Design, 11(10) :4623-4631, 2011.

286)  Synthesis, Crystal Structures, and Luminescence and Magnetic Properties of 3D Chiral and Achiral Lanthanide Diphosphonates Containing Left- and Right-Handed Helical Chains. Dapeng Dong, Lei Liu, Zhengang Sun*, Chengqi Jia, Zhongmin Liu, Chao Li, Yanyu Zhu, Kai Chen, Cheng-Lin Wang, Crystal Growth & Design, 11(12) :5346-5354, 2011.

287)  Hydrothermal synthesis, crystal structures, and luminescent properties of a series of new lanthanide oxalatophosphonates with a layer architecture. Yanyu Zhu, Zhengang Sun*, Fei Tong, Zhongmin Liu, Cuiying Huang, Weinan Wang, Chengqi Jiao, Chenglin Wang, Chao Li , Kai Chen, Dalton Transactions, 40(20) :5584-5590, 2011.

288)  固体氧化物催化剂酸碱性质对 1,2-丙二醇转化反应的影响.Zhengxi Yu, Lei Xu, Xinzhi Zhang, Zhongmin Liu*, Chinese Journal of Catalysis, 31(4) :441-446, 2010.

289)  用于甲醇制烯烃反应的SAPO-34分子筛改性研究. Guangyu Liu, Peng Tian, Zhongmin Liu*, Progress in Chemistry, 22(8) :1531-1537, 2010.

290)  甲苯甲醇烷基化制PX技术的开发优势. Jinsong Cao, Junmin Zhang, Lei Xu, Zhongmin Liu, Technology & Economics in Petrochemicals, 26(1) :8-10, 2010.

291)  Synthesis of Mesoporous Cu-Mn-Al2O3 Materials and Their Applications to Preferential Catalytic Oxidation of CO in a Hydrogen-rich Stream. Deren Fang, Wanzhong Ren, Zhongmin Liu*, Xiufeng Xu, Huimin Zhang, Weiping Liao, Chemical Research in Chinese Universities, 26(1) :105-109, 2010.

292)  A dual template method for synthesizing hollow silica spheres with mesoporous shells. Shigang Zhang, Lei Xu, Hongchao Liu, Yinfeng Zhao, Ying Zhang, Quanyi Wang, Zhengxi Yu, Zhongmin Liu*, Materials Letters, 63(2) :258-259, 2009.

293)  Mechanistic Studies on the Coupled Reaction of n-Hexane and Ethanol Over HZSM-5 Zeolite Catalyst. Jinlong Wan, Fuxiang Chang, Yingxu Wei, Qinghua Xia, Zhongmin Liu*, Catalysis Letters,127(3-4):348-353, 2009.

294)  Highly effective synthesis of methyl glycolate with heteropolyacids as catalysts. Ying Sun, Hua Wang, Jianghan Shen, Hongchao Liu, Zhongmin Liu*, Catalysis Communications, 10(5) :678-681, 2009.

295)  A new route for the synthesis of propylene oxide from bio-glycerol derivated propylene glycol. Zhengxi Yu, Lei Xu, Yingxu Wei, Yingli Wang, Yanli He, Qinghua Xia, Xinzhi Zhang, Zhongmin Liu*, Chemical Communications, 26:3934-3936, 2009.

296)  Synthesis and characterization of organic-functionalized molecular sieves Ph-SAPO-5 and Ph-SAPO-11. D. Zhou, X.-B. Luo, H.-L. Zhang, C. Dong, Qinghua Xia*, Zhongmin Liu, F. Deng, Microporous and Mesoporous Materials, 121(1-3) :194-199, 2009.

297)  Ultra-short contact time conversion of chloromethane to olefins over pre-coked SAPO-34: direct insight into the primary conversion with coke deposition. Yingxu Wei, Dazhi Zhang, Fuxiang Chang, Qinghua Xia, Baolian Su, Zhongmin Liu*, Chemical Communications, 40:5999-6001, 2009.

298)  鸟巢状氧化镁球形材料的合成、表征及催化性能. Shigang Zhang, Lei Xu, Hongchao Liu, Shuanghe Meng, Yue Yang, Jiping Chen, Zhongmin Liu*, Chinese Journal of Catalysis, 30(6) :1-5, 2009.

299)  磺化苯膦酸-磷酸锆的制备及其对甲醛羰基化反应的催化性能. Ying Sun, Yangyang Zhang, Yue Qi, Hua Wang, Hongchao Liu, Jianghan Shen, Zhongmin Liu*, Chinese Journal of Catalysis, 30(8) :786-790, 2009.

300)  Conversion of syngas to higher alcohols over Cu-Fe-Zr catalysts induced by ethanol. Hongtao Zhang*, Xiaomei Yang, Lipeng Zhou, Yunlai Su, Zhongmin Liu, Journal of Natural Gas Chemistry, 18(3):337-340, 2009.

301)  Synthesis and applications of mesoporous Cu-Zn-Al2O3 catalyst for dehydrogenation of 2-butanol. Deren Fang, Wanzhong Ren, Zhongmin Liu*, Xiufeng Xu, Lei Xu, Hongying Lü , Weiping Liao, Huimin Zhang, Journal of Natural Gas Chemistry, 18 (2):179-182, 2009.

302)  A DFT study of adsorption hydrogen on the Li-FAUzeolite. Lihua Kang, Weiqiao Deng, Keli Han*, Tao Zhang, Zhongmin Liu, International Journal of Hydrogen Energy, 33(1) :105-110, 2008.

303)  Bronsted acidic ionic liquids as dual catalyst and solvent for environmentally friendly synthesis of chalcone. Jianghan Shen, Hua Wang, Hongchao Liu, Ying Sun, Zhongmin Liu*, Journal of Molecular Catalysis A, 280(1) :24-28, 2008.

304)  Nano-Au/silica composite synthesized using nitrided SBA-15 as a host. Yinfeng Zhao, Yue Qi, Yangyang Zhang, Shigang Zhang, Zhongmin Liu*, Materials Letters, 62(8-9):1197-1199, 2008.

305)  Synthesis, characterization and catalytic properties of SAPO-34 synthesized using diethylamine as a template. Guangyu Liu, Peng Tian, Jinzhe Li, Dazhi Zhang, Fan Zhou, Zhongmin Liu*, Microporous and Mesoporous Materials, 111(1-3) :143-149, 2008.

306)  Incorporation of Ag nanostructures into channels of nitrided mesoporous silica. Yinfeng Zhao, Yue Qi, Yingxu Wei, Yangyang Zhang, Shigang Zhang, Yue Yang, Zhongmin Liu*, Microporous and Mesoporous Materials, 111(1-3) :300-306, 2008.

307)  Promotion effect of cerium and lanthanum oxides on Ni/SBA-15 catalyst for ammonia decomposition. Hongchao Liu, Hua Wang, Jianghan Shen, Ying Sun, Zhongmin Liu*, Catalysis Today, 131(1-4) :444-449, 2008.

308)  Synthesis, characterization and catalytic performance of metal-incorporated SAPO-34 for chloromethane transformation to light olefins. Yingxu Wei, Dazhi Zhang, Lei Xu, Fuxiang Chang, Yanli He, Shuanghe Meng, Baolian Su, Zhongmin Liu*, Catalysis Today, 131(1-4) :262-269, 2008.

309)  Preparation, characterization and activities of the nano-sized Ni/SBA-15 catalyst for producing COx-free hydrogen from ammonia. Hongchao Liu, Hua Wang, Jianghan Shen, Ying Sun, Zhongmin Liu*, Applied Catalysis A, 337(2):138-147, 2008.

310)  Synthesis of SAPO-34 with only Si(4Al) species: Effect of Si contents on Si incorporation mechanism and Si coordination environment of SAPO-34. Lei Xu, Aiping Du, Yingxu Wei, Yingli Wang, Zhengxi Yu, Yanli He, Xinzhi Zhang, Zhongmin Liu*, Microporous and Mesoporous Materials, 115(3) :332-337, 2008.

311)  Synthesis of SAPO-34 templated by diethylamine: Crystallization process and Si distribution in the crystals. Guangyu Liu, Peng Tian, Ying Zhang, Jinzhe Li, Lei Xu, Shuanghe Meng, Zhongmin Liu*, Microporous and Mesoporous Materials, 114(1-3) :416-423, 2008.

312)  Co-reaction of Ethene and Methylation Agents over SAPO-34 and ZSM-22. Jinzhe Li, Yue Qi, Zhongmin Liu*, Guangyu Liu, Dazhi Zhang, Catalysis Letters, 121(3-4) :303-310, 2008.

313)  Preparation and evaluation of ammonia decomposition catalysts by high-throughput technique. Hongchao Liu, Hua Wang, Jianghan Shen, Ying Sun, Zhongmin Liu*, Reaction Kinetics and Catalysis Letters, 93(1) :11-17, 2008.

314)  A ZSM-5-based Catalyst for Efficient Production of Light Olefins and Aromatics from Fluidized-bed Naphtha Catalytic Cracking. Jinlong Wan, Yingxu Wei, Zhongmin Liu*, Bing Li, Yue Qi, Mingzhi Li, Peng Xie, Shuanghe Meng, Yanli He, Fuxiang Chang, Catalysis Letters, 124(1-2) :150-156, 2008.

315)  Selective alkylation of naphthalene with tert-butyl alcohol over HY zeolites modified with acid and alkali. Yingli Wang, Lei Xu, Zhengxi Yu, Xinzhi Zhang, Zhongmin Liu*, Catalysis Communications, 9(10):1982-1986, 2008.

316)  MgAPSO-34 molecular sieves with various Mg stoichiometries: Synthesis, characterization and catalytic behavior in the direct transformation of chloromethane into light olefins. Dazhi Zhang, Yingxu Wei, Lei Xu, Fuxiang Chang, Ziyu Liu, Shuanghe Meng, Bao-Lian Su, Zhongmin Liu*, Microporous and Mesoporous Materials, 116(1-3) :684-692, 2008.

317)  Co-reaction of ethene and methanol over modified H-ZSM-5. Jinzhe Li, Yue Qi, Lei Xu, Guangyu Liu, Shuanghe Meng, Bing Li, Mingzhi Li, Zhongmin Liu*, Catalysis Communications, 9(15) :2515-2519, 2008.

318)  丁烯-2在HZSM-5分子筛上的齐聚反应. Shu Liu, Chunlin Li, Guangyu Liu, Dazhi Zhang, Yangyang Zhang, Xinde Sun, Zhongmin Liu*, Chinese Journal of Catalysis, 29(4) :319-324, 2008.

319)  SAPO-34催化剂上反应条件对乙烯转化制丙烯的影响. Jinzhe Li, Yue Qi, Zhongmin Liu*, Guangyu Liu, Fuxiang Chang, Chinese Journal of Catalysis, 29(7) :660-664, 2008.

320)  骨架富含Si(4Al)结构的SAPO-34分子筛的合成及其对甲醇制烯烃反应的催化性能. Lei Xu, Aiping Du, Yingxu Wei, Shuanghe Meng, Yanli He, Yingli Wang, Zhengxi Yu, Xinzhi Zhang, Zhongmin Liu*, Chinese Journal of Catalysis, 29(8) :727-732, 2008.

321)  Inorganic phosphate crystal Na15-n[Al(PO4)2F2]3-n[Ti(PO4)2F2]n (0≤n<1): A novel cation exchanger with high exchange selectivity for Li+ and Pb2+ ions. Ying Zhang, Peng Tian, Shigang Zhang, Yinfeng Zhao, Guangyu Liu, Yingli Wang, Zhongmin Liu*, Materials Research Bulletin, 43(12) :3382-3388, 2008.

322)  Methanol Adsorption in Isomorphously Substituted AlPO-34 Clusters and Periodic Density Functional Theory Calculations. Lihua Kang, Tao Zhang, Zhongmin Liu, Keli Han*, Journal of Physical Chemistry C, 112(14) :5526-5532, 2008.

323)  Theoretical studies of IM-12 zeolite for acidic catalysts.Lihua Kang, Weiqiao Deng, Tao Zhang, Zhongmin Liu, Keli Han*, Microporous and Mesoporous Materials, 115(3) :261-266, 2008.

324)  Synthesis of ultrafine zeolites by dry-gel conversion without any organic additive. D. Hu, Q.-H. Xia*, X.-H. Lu, X.-B. Luo, Zhongmin Liu, Materials Research Bulletin, 43 (12):3553-3561, 2008.

325)  Preparation and characterization of ultrafine Fe-Cu-based catalysts for CO hydrogenation. Yunlai Su*, Yingli Wang, Zhongmin Liu, Journal of Natural Gas Chemistry, 17 (4): 327-331, 2008.

326)  HY Zeolite Modified by Liquid Silane Deposition and Its Catalytic Activity in Selective tert-Butylation of Naphthalene. Yingli Wang, Lei Xu, Zhengxi Yu, Xinzhi Zhang, Zhongmin Liu*, Chinese Journal of Catalysis, 29 (12):1237-1241, 2008.

327)  Synthesis, crystal structure and characterizations of a new 3D porous zinc phosphonate: Zn6[(O3PCH2)2NHC6H11]4 . 6H2O. Jing Li, Lei Meng, Zhengang Sun*, Zhongmin Liu, Yan Zhao, Jing Zhang, Yanyu Zhu, Xin Lu, Lei Liu, Na Zhang, INORGANIC CHEMISTRY COMMUNICATIONS, 11(2): 211-214, 2008.

328)  Effective heterogenization and catalytic use of active C5H5 NiLX complex for the hydrosilylation. Z Xu, X. -H. Lu, Q. -H. Xia*, Z. -W. Lou, C. -P. Ye, Zhongmin Liu, CATALYSIS COMMUNICATIONS, 9(8): 1793-1798, 2008.

329)  Pt改性分子筛催化剂上丙烷与苯的烷基化反应. Xueqing Huang, Xinde Sun, Shukui Zhu, Zhongmin Liu*, Chinese Journal of Catalysis, 28(3) : 201-204, 2007.

330)  Direct synthesis of Zn-ZSM-5 with novel morphology. Ligang Wang, Shiyun Sang, Shuanghe Meng, Ying Zhang, Yue Qi, Zhongmin Liu*, Materials Letters, 61(8-9) : 1675-1678, 2007.

331)  Catalytic performance of chloromethane transformation for light olefins production over SAPO-34 with different Si content. Yingxu Wei, Dazhi Zhang, Lei Xu, Yue Yang, Bao-lian Su, Zhongmin Liu*, Catalysis Letters, 114(1-2) :30-35, 2007.

332)  Synthesis, structure and magnetic properties of a new iron phosphonate-oxalate with 3D framework:[Fe(O3PCH3)(C2O4)0.5(H2O)]. Yangyang Zhang, Yue Qi, Ying Zhang, Ziyu Liu, Yinfeng Zhao, Zhongmin Liu*, Materials Research Bulletin, 42(8) :1531-1538, 2007.

333)  A mechanistic investigation of the coupled reaction of n-hexane and methanol over HZSM-5. Fuxiang Chang, Yingxu Wei, Xianbin Liu, Yinfeng Zhao, Lei Xu, Ying Sun, Dazhi Zhang, Yanli He, Zhongmin Liu*, Applied Catalysis A, 328(2) :163-173, 2007.

334)  Mechanistic elucidation of chloromethane transformation over SAPO-34 using deuterated probe molecule: A FTIR study on the surface evolution of catalyst. Yingxu Wei, Dazhi Zhang, Zhongmin Liu*, Baolian Su*, Chemical Physics Letters, 444(1-3) :197-201, 2007.

335)  Preparation and characterization of SBA-15 supported molybdenum nitride for NH3 decomposition. Hongchao Liu, Hua Wang, Zhongmin Liu*, Jianghan Shen, Ying Sun, Studies in Surface Science and Catalysis, 165:787-790, 2007.

336)  Synthesis of mesoporous silica materials from kenyaite. Ziyu Liu, Yingxu Wei, Yue Qi, Shiyun Sang, Zhongmin Liu*, Studies in Surface Science and Catalysis, 165:41-44, 2007.

337)  Creating mesopores in ZSM-5 for improving catalytic cracking of hydrocarbons. Yingxu Wei, Fuxiang Chang, Yanli He, Shuanghe Meng, Yue Yang, Yue Qi, Zhongmin Liu*, Studies in Surface Science and Catalysis, 165:539-542, 2007.

338)  Benzene alkylation with propane over metal modified HZSM-5. Xueqing Huang, Xinde Sun, Shukui Zhu, Zhongmin Liu*, Reaction Kinetics and Catalysis Letters, 91(2):385-390, 2007.

339)  ZSM-34分子筛的合成及其催化甲醇转化制烯烃反应性能. Fan Zhou, Peng Tian, Zhongmin Liu*, Guangyu Liu, Fuxiang Chang, Jinzhe Li, Chinese Journal of Catalysis, 28(9) :817-822, 2007.

340)  Synthesis and Shape Evolution of Monodisperse Basic Magnesium Carbonate Microspheres. Zhiping Zhang, Yajun Zheng, Jixiu Zhang, Qing Zhang, Jiping Chen*, Zhongmin Liu, Xinmiao Liang, Crystal Growth & Design, 7(2) :337-342, 2007.

341)  Direct observation of induction period of MTO process with consecutive pulse reaction system. Yingxu Wei, Dazhi Zhang, Fuxiang Chang, Zhongmin Liu*, Catalysis Communications, 8(12) :2248-2252, 2007.

342)  Synthesis of ternary mesoporous Cu-Zn-SiO2 materials at ambient temperature and their application for the water gas shift reaction. Deren Fang, Zhongmin Liu*, Zhang Huimin, Li Jishen, Liao Weiping, Reaction Kinetics and Catalysis Letters, 92(1) :55-60, 2007.

343)  几种分子筛催化剂对丁烯-2齐聚反应的催化性能. Shu Liu, Ligang Wang, Hongchao Liu, Xinde Sun, Zhongmin Liu*, Chinese Journal of Catalysis, 28(10) :919-924, 2007.

344)  具有二次介孔分子筛材料的制备和应用. Quanyi Wang, Dandong Li, Yue Qi, Zubin Cao, Zhongmin Liu*, Chinese Industrial Catalysis, 15( 7) :10-16, 2007.

345)  Benzene Alkylation with Propane over Mo Modified HZSM-5. Xueqing Huang, Xinde Sun, Shukui Zhu, Zhongmin Liu*, Catalysis Letters, 119(3-4) :332-338, 2007.

346)  Propylene production by co-reaction of ethylene and chloromethane over SAPO-34. Jinzhe Li, Yue Qi, Dazhi Zhang, Zhongmin Liu*, Studies in Surface Science and Catalysis, 170:1578-1582, 2007.

347)  一种含有亚微米孔洞的新型微孔磷酸盐晶体材料的合成及其生长机理.Ying Zhang, Peng Tian, Fan Zhou, Guangyu Liu, Zhongmin Liu*, Chinese Journal of Catalysis, 28(11) :963-969, 2007.

348)  Bronsted酸性离子液体催化异丁醛和叔丁醇缩合反应. Jianghan Shen, Hua Wang, Ying Sun, Hongchao Liu, Zhongmin Liu*, Chinese Journal of Catalysis, 28(11) :1009-1012, 2007.

349)  Honeycomb-like layered cobalt(Ⅱ) phosphonate with [O2(CH(OH)PO2}3- as ligand: hydrothermal synthesis, crystal structure, and magnetic properties. Yangyang Zhang, Zeng Ming-hua, Yue Qi, Shiyun Sang, Zhongmin Liu*, Inorganic Chemistry Communications, 10(1) :33-36, 2007.

350)  Structure and electrial conductivity of a noval inorganic solid electrolyte: Na14.5[Al(PO4)2F2]2.5[Ti(PO4)2F2]0.5(NATP). Ying Zhang, Peng Tian, Zhengang Sun, Ziyu Liu, Yangyang Zhang, Lihong Qu, Shiyun Sang, Zhongmin Liu*, Solid State Communications, 141(7) :407-411, 2007.

351)  Synthesis, characterizations, and crystal structure of a novel 2D metalphosphonate: Na2[Cd2(H2O)3(O3PCH(OH)CO2)2]2H2O. Zhengang Sun, Hui Chen, Zhongmin Liu, Lianyi Cui, Yanyu Zhu, Yan Zhao, Jing Zhang, Wansheng You, Zaiming Zhu, Inorganic Chemistry Communications, 10:283-286, 2007.

352)  甲醇制取低碳烯烃(DMTO)技术的研究开发及工业性试验. Zhongmin Liu*, Yue Qi, Report on Chinese Academy of Sciences, 21(5) :406-408, 2006.

353)  Synthesis and characterization of a new nanoporous carbon material with a bimodal pore system. Xianbin Liu, Fuxiang Chang, Lei Xu, Yue Yang, Yanli He, Zhongmin Liu*, Carbon, 44(1) :158-193, 2006.

354)  Synthesis of small crystals zeolite NaY. Shiyun Sang, Zhongmin Liu*, Peng Tian, Ziyu Liu, Lihong Qu, Yangyang Zhang, Materials Letters, 60(9-10) : 1131-1133, 2006.

355)  Highly efficient catalytic conversion of chloromethane to light olefins over HSAPO-34 as studied by catalytic testing and in situ FTIR. Yingxu Wei, Dazhi Zhang, Zhongmin Liu*, Baolian Su*, Journal of Catalysis, 238(1) : 46-57, 2006.

356)  Study of Mn incorporation into SAPO framework:Synthesis, characterization and catalysis in chloromethane conversion to light olefins. Yingxu Wei, Yanli He, Dazhi Zhang, Lei Xu, Shuanghe Meng, Zhongmin Liu*, Baolin Su*, Microporous and Mesoporous Materials, 90(1-3) :188-197, 2006.

357)  烃类催化裂解和氧化耦合反应制低碳烯烃. Jinling Zhang, Peng Xie, Zhongmin Liu*, Mingzhi Li, Fuxiang Chang, Petrochemical Technology, 35(3) :212-216, 2006.

358)  Influence of reaction conditions on methanol synthesis and WGS reaction in the syngas-to-DME process. Ligang Wang, Deren Fang, Xingyun Huang, Shigang Zhang, Yue Qi, Zhongmin Liu*, Journal of Natural Gas Chemistry, 15(1) :38-44, 2006.

359)  Synthesis of ordered mesoporous Zr-P-Al materials with high thermal stability. Ziyu Liu, Yingxu Wei, Yue Qi, Xianbin Liu, Yinfeng Zhao, Zhongmin Liu*, Microporous and Mesoporous Materials, 91(1-3) :225-232, 2006.

360)  An improved catalytic cracking of n-hexane via methanol coupling reaction over HZSM-5 zeolite catalysts. Fuxiang Chang, Yingxu Wei, Xianbin Liu, Yue Qi, Dazhi Zhang, Yanli He, Zhongmin Liu*, Catalysis letters, 106(3-4) :171-176, 2006.

361)  Template-assisted syntheses of porous metal methylphosphonates. Zongbin Wu, Tian Jingcheng, Zhongmin Liu*, Peng Tian, Lei Xu, Yue Yang, Yangyang Zhang, Xinhe Bao, Xiumei Liu, Xianchun Liu, Journal of Porous Materials, 13(1) :73-80, 2006.

362)  Research on the acidity of the double-function catalyst for DME synthesis from syngas. Ligang Wang, Yue Qi, Yingxu Wei, Deren Fang, Shuanghe Meng, Zhongmin Liu*, Catalysis Letters, 106(1-2) :61-66, 2006.

363)  Chloromethane conversion to higher hydrocarbons over zeolites and SAPOs. Dazhi Zhang, Yingxu Wei, Lei Xu, Aiping Du, Fuxiang Chang, Baolian Su, Zhongmin Liu*, Catalysis Letters, 109(1-2) :97-101, 2006.

364)  K-Co-Mn-C催化剂的制备及其合成低碳醇的性能. Chunlin Li, Yanli He, Zhongmin Liu*, Chinese Journal of Catalysis, 27(5) :409-415, 2006.

365)  氯甲烷在镁修饰的ZSM-5分子筛催化剂上催化转化研究.Dazhi Zhang, Yingxu Wei, Jianghan Shen, Hongchao Liu, Yingli Wang, Lei Xu, Baolian Su, Zhongmin Liu*, Natural Gas Chemical Industry (Chinese), 31(3) :14-18, 2006.

366)  Synthesis of MCM-41 type materials with remarkable hydrothermal stability from UTM-1. Ziyu Liu, Yingxu Wei, Yue Qi, Shigang Zhang, Ying Zhang, Zhongmin Liu*, Microporous and Mesoporous Materials, 93(1-3) :205-211, 2006.

367)  氯甲烷在H-ZSM-5催化剂上的催化转化研究. Dazhi Zhang, Yingxu Wei, Lei Xu, Ligang Wang, Fuxiang Chang, Baolian Su, Zhongmin Liu*, Natural Gas Chemical Industry (Chinese), 31(4) :42-44, 2006.

368)  渣油FCC改性Y沸石研究. Jianming Zhang, Xinping Wang, Peng Xie, Mingzhi Li, Jinling Zhang, Yue Yang, Zhongmin Liu*, Journal of Fuel Chemistry and Technology (Chinese), 34(3) :319-323, 2006.

369)  老化时间对Cu/ZnO/Al2O3合成甲醇催化剂性能的影响. Deren Fang, Zhongmin Liu*, Xiufeng Xu, Huimin Zhang, Journal of Fuel Chemistry and Technology (Chinese), 34(1) :96-99, 2006.

370)  Influence of preparation conditions on the catalytic performance of MoNx/SBA-15 for ammonia decomposition. Hongchao Liu, Hua Wang, Jianghan Shen, Ying Sun, Zhongmin Liu*, Journal of Natural Gas Chemistry, 15:178-180, 2006.

371)  Hydrothermal synthesis, crystal structures and characterizations of a novel 3D metal phosphonate: Mg0.5Cd[O3PCH(OH)CO2]. Zhengang Sun*, Lianyi Cui , Zhongmin Liu, Lei Meng, Hui Chen , Dapeng Dong, Lancui Zhang , Zaiming Zhu, Wansheng You, Inorganic Chemistry Communications, 9(10) :999-1001, 2006.

372)  Hydrothermal synthesis and crystal structure of a novel lead(II) phosphonate containing trifunctional phosphonate anions: Pb4O[O3PCH2–NC4H7–CO2]. Zhengang Sun*, Lianyi Cui , Zhongmin Liu, Dapeng Dong, Lei Meng, Hui Chen , Lancui Zhang, Zaiming Zhu, Wansheng You, Inorganic Chemistry Communications, 9(11) :1121-1124, 2006.

373)  Synthesis, spectroscopic properties and crystal structure of organophosphoryl polyoxotungstate a-[Bu4N]3H[PhCH2P(O)]2SiW11O39. Zhengang sun*, Lancui Zhang, Zhongmin Liu, Lianyi Cui, Huatian Cui, Haidong Liang , Journal of Coordination Chemistry, 59(14) :1557-1564, 2006.

374)  以含模板剂的中孔MCM-41为模板合成类碳纳米管材料. Xianbin Liu, Zhongmin Liu*, Fuxiang Chang, Lihong Qu, Shiyun Sang, Yangyang Zhang, New Carbon Materials, 21(3) :237-242, 2006.

375)  Characterization of the surface properties of Mg/Al oxides by the solvation parameter model. Zhiping Zhang, Shigang Zhang, Jiping Chen, Zhongmin Liu, Xinmiao Liang*, Journal of Chromatography A, 1115(1-2):58-63, 2006.

376)  Temperature-and pH-Dependent Morphology and FT-IR Analysis of Magnesium Carbonate Hydrates. Zhiping Zhang, Yajun Zheng, Yuwen Ni, Zhongmin Liu, Jiping Chen, Xinmiao Liang*, Journal of Physical Chemistry B, 110(26) :12969-12973, 2006.

377)  Two CrIII containing metal-1-hydroxyethylidenediphosphonate compounds: Synthesis, structure, and morphology. Zongbin Wu, Zhongmin Liu*, Peng Tian, Lei Xu, Haibin Song, Xinhe Bao, Xiumei Liu, Xianchun Liu, Crystal Research and Technology, 41(10) :1049-1054, 2006.

378)  多孔膦酸盐的研究进展. Zongbin Wu, Peng Tian, Zhongmin Liu*, Zongqiang Mao , Progress in Chemistry, 18(9) :1092-1100, 2006.

379)  后处理法合成高热稳定性的中孔Ti-P-Al材料. Ziyu Liu, Yingxu Wei, Yue Qi, Zhongmin Liu*, Chinese Journal of Catalysis, 27(11) :1028-1032, 2006.

380)  Synthesis and crystal structure of Zn[O3PCH(NH2)CH3] 2H2O, the first zinc a-aminoethylphosphonate with a layer structure. Lian-yi Cui, Zhen-gang Sun, Zhongmin Liu*, Wansheng You, Zai-ming Zhu, Lei Meng, Hui Chen, Dapeng Dong, Inorganic Chemistry Communications, 9(12) :1232-1234, 2006.

381)  SAPO-34和MeAPSO-34在氯甲烷转化制烯烃中的应用. Yingxu Wei, Dazhi Zhang, Lei Xu, Yanli He, Su Bao-lian, Zhongmin Liu*, Oil Journal (Chinese Petroleum Processing), Supplement,1:110-112, 2006.

382)  Production of light olefins and aromatic hydrocarbons through catalytic cracking of naphtha at lowered temperature. Yingxu Wei, Zhongmin Liu*, Gongwei Wang, Yue Qi, Lei Xu, Peng Xie, Yanli He, Studies in Surface Sciences and Catalysis, 158:1223-1230, 2005.

383)  烃类氧化催化裂解反应制低碳烯烃. Jinling Zhang, Peng Xie, Zhongmin Liu*, Mingzhi Li, Shukui Zhu, Petrochemical Technology (Chinses), 34, Supplement, 82-84, 2005.

384)  不同结构分子筛催化剂上甲醇耦合的C6烷烃裂化反应过程的研究. Fuxiang Chang, Xianbin Liu, Yingxu Wei, Yue Qi, Dazhi Zhang, Zhongmin Liu*, Petrochemical Technology (Chinses), 34, Supplement, 108-111, 2005.

385)  分子筛催化的混合C4水合反应. Hua Wang, Tao Huang, Gang Chen, Jinling Zhang, Zhongmin Liu*, Petrochemical Technology (Chineses), 34, Supplement, 156-158, 2005.

386)  合成气制二甲醚催化剂制备方法的对比研究. Ligang Wang, Yue Qi, Dazhi Zhang, Hongchao Liu, Jianghan Shen, Zhongmin Liu*, Petrochemical Technology (Chineses), 34, Supplement, 298-300, 2005.

387)  SAPO-11分子筛的制备和表征及负载Pd催化正丁烷转化生产异丁烯的研究. Yingxu Wei, Zhongmin Liu*, Gongwei Wang, Yanli He, Lei Xu, Peng Xie, Petrochemical Technology (Chineses), 34, Supplement, 357-359, 2005.

388)  中孔氧化铝分子筛的合成及其热稳定性的研究. Lihong Qu, Changqing He , Yue Yang, Yanli He, Zhongmin Liu*, Petrochemical Technology (Chinses), 34, Supplement, 360-362, 2005.

389)  CoAPO分子筛中过渡金属的配位状态及其催化氧化性能研究. Peng Tian, Zhongmin Liu*, Zongbin Wu, Lei Xu, Peng Xie, Yue Yang, Petrochemical Technology (Chinses), 34, Supplement, 365-367, 2005.

390)  小晶粒Y分子筛的合成及其晶化过程研究. Shiyun Sang, Peng Tian, Shuanghe Meng, Yangyang Zhang, Ziyu Liu, Zhongmin Liu*, Petrochemical Technology (Chinses), 34, Supplement, 371-373, 2005.

391)  强酸性条件下添加乙醇对中孔氧化硅结构的影响. Xianbin Liu, Zhongmin Liu*, Fuxiang Chang, Lihong Qu, Yue Yang, Yanli He, Petrochemical Technology (Chinses), 34, Supplement, 447-449, 2005.

392)  合成过程中添加无机盐对中孔氧化硅结构的影响. Xianbin Liu, Zhongmin Liu*, Fuxiang Chang, Lihong Qu, Yue Yang, Yanli He, Petrochemical Technology (Chinses), 34, Supplement, 450-452, 2005.

393)  中孔Zr-P-Al材料的合成及其反应性能. Ziyu Liu, Ligang Wang, Yue Qi, Shiyun Sang, Chunlin Li, Zhongmin Liu*, Petrochemical Technology (Chinses), 34, Supplement, 453-455, 2005.

394)  高通量筛选技术在氨分解制不含COx氢中的应用. Hongchao Liu, Hua Wang, Jianghan Shen, Ying Sun, Zhongmin Liu*, Petrochemical Technology (Chinses), 34, Supplement, 495-497, 2005.

395)  Hydrothermal synthesis of alumina nanotubes templated by anionic surfactant. Lihong Qu, Changqing He , Yue Yang, Yanli He, Zhongmin Liu*, Materials Letters, 59(29-30):4034-4037, 2005.

396)  丙烯直接水合法生产异丙醇技术. Zhongmin Liu*, Shukui Zhu, Shigang Zhang, Hongyi Yang, Fine and Specialty Chemicals, 13(15):1-4, 2005.

397)  New route for light olefins production from chloromethane over HSAPO-34 molecular sieve. Yingxu Wei, Dazhi Zhang, Lei Xu, Zhongmin Liu*, Baolian Su*, Catalysis Today, 106(1-4) :84-89, 2005.

398)  Template-assisted syntheses of two novel porous zirconium methylphosphonates. Zongbin Wu, Zhongmin Liu*, Peng Tian, Yanli He, Lei Xu, Yue Yang, Yangyang Zhang, Xinhe Bao, Xiumei Liu, Xianchun Liu, Microporous and Mesoporous Materials, 81(1-3) :175-183, 2005.

399)  Preparation of ordered carbon/silica hybrid mesoporous materials with specific pore size expansion. Xianbin Liu, Fuxiang Chang, Lei Xu, Yue Yang, Peng Tian, Lihong Qu, Zhongmin Liu*, Microporous and Mesoporous Materials, 79(1-3) :269-276, 2005.

400)  制备溶液pH对CuO-ZnO/Al2O3催化剂前体物相及其CO水汽变换反应活性的影响. Deren Fang, Zhongmin Liu*, Yue Yang, Huimin Zhang, Jintu Lin, Petrochemical Technology (Chinses), 34(11) :1032-1036, 2005.

401)  High-throughput screening of HZSM-5 supported metal-oxides catalysts for the coupling of methane with CO to benzene and naphthalene. Hua Wang, Zhongmin Liu*, Jianghan Shen, Hongchao Liu, Jinling Zhang, Catalysis Communications, 6(5):343-346, 2005.

402)  Advances in Homogeneous and Heterogeneous Catalytic Asymmetric Epoxidation. Q-H Xia*, H-Q Ge, C-P Ye, Zhongmin Liu, K-X Su, Chemical Reviews, 105(5) :1603-1662, 2005.

403)  Up-grading of FCC gasoline by olefin hydration over Hβ zeolite. Hua Wang, Tao Huang, Juan Du, Zhongmin Liu*, Chinese Journal of Catalysis, 26(6) :451-452, 2005.

404)  高热稳定性高有序性中孔Zr-P-Al材料的合成. Ziyu Liu, Yue Qi, Ying Zhang, Lihong Qu, Shiyun Sang, Zhongmin Liu*, Chinese Journal of Catalysis, 26(6) :475-479, 2005.

405)  Preparation and property of low coke yield resid catalytic cracking catalyst. Jianming Zhang*, Xinping Wang, Peng Xie, Minzhi Li, Jinling Zhang, Yue Yang, Zhongmin Liu, Chinese Journal of Catalysis, 26(12):1053-1058, 2005.

406)  Selective synthesis of 2, 5-dimethyl-2, 4-hexadiene over molecular sieve catalysts in a liquid phase reaction. Hua Wang, Zhongmin Liu*, Chenglin Sun, Gongwei Wang, Studies In Surface Science And Catalysis, 154:2773-2780, 2004.

407)  SAPO-34和SAPO-44分子筛上吸附甲醇的TPSR-MS研究. Aiping Du, Lei Xu, Dazhi Zhang, Zhongmin Liu*, Gongwei Wang, Chinese Journal of Catalysis, 25(8) :619-623, 2004.

408)  凝胶硅铝比对合成MCM-22,UTM-1和Kenyaite的影响. Ziyu Liu, Zhongmin Liu*, Yue Qi, Lei Xu, Yanli He, Yue Yang, Yangyang Zhang, Chinese Journal of Catalysis, 25(7) :542-546, 2004.

409)  甲烷直接转化研究进展. Hua Wang, Zhongmin Liu*, Progress in Chemistry, 16(4) :593-602, 2004.

410)  Hydrothermal synthesis and characterization of microporous crystals of trivalent metal-containing zirconium phosphates. Zhengang Sun, Zhongmin Liu*, Lei Xu, Yue Yang, Yanli He, Catalysis Today, 93-5:639-643, 2004.

411)  Difference of ZSM-5 zeolites synthesized with various templates. Shiyun Sang, Fuxiang Chang, Zhongmin Liu*, Changqing He , Yanli He, Lei Xu, Catalysis Today, 93-5:729-734, 2004.

412)  Characterization of metal-containing molecular sieves and their catalytic properties in the selective oxidation of cyclohexane. Peng Tian, Zhongmin Liu*, Zongbin Wu, Lei Xu, Yanli He, Catalysis Today, 93-5:735-742, 2004.

413)  Synthesis, characterization, and MTO performance of MeAPSO-34 molecular sieves. Lei Xu, Zhongmin Liu*, Aiping Du, Yingxu Wei, Zhengang Sun, Studies in Surface Science and Catalysis, 147:445-450, 2004.

414)  Production of isobutene from n-butane over Pd modified SAPOs and MeAPOs. Yingxu Wei, Gongwei Wang*, Zhongmin Liu, Lei Xu, Peng Xie, Studies in Surface Science and Catalysis, 147:721-726, 2004.

415)  High-throughput characterization of heterogeneous catalysts by temperature-programmed analysis method. Hua Wang, Zhongmin Liu*, Jianghan Shen, Hongchao Liu, Catalysis Communications, 5(1) :55-58, 2004.

416)  以1,6-己二胺为模板剂的层状磷酸锆晶体的合成与表征. Jinhang Wang, Zhongmin Liu*, Zhengang Sun, Yue Yang, Yanli He, Lei Xu, Yue Qi, Chinese Journal of Catalysis, 25(5) :387-392, 2004.

417)  铝盐加入方式对CuO/ZnO/Al2O3系催化剂性能的影响. Deren Fang, Zhongmin Liu*, Dechen Liu, Huimin Zhang, Shuanghe Meng, Ligang Wang, Petrochemical Technology (Chinese), 33(11) :1041-1045, 2004.

418)  沉淀pH对CuO/ZnO/Al2O3系催化剂前体性质的影响, Zhongmin Liu*, Xiaoqong Li, Huimin Zhang, Lei Xu, Xiufeng Xu, Petrochemical Technology (Chinese), 33(7) :622-626, 2004.

419)  沉淀温度对CuO/ZnO/Al2O3催化剂前驱体物相及催化水媒气变换反应活性的影响. Deren Fang, Zhongmin Liu*, Yue Yang, Shuanghe Meng, Zhanghuai Suo, Feng Chen, Chinese Journal of Catalysis, 25(11) : 920-924, 2004.

420)  Synthesis and structures of sodium aluminodiphosphonates with different morphologies (diphosphonate=1-hydroxyethylidenediphosphonate). Zongbin Wu, Zhongmin Liu*, Peng Tian, Yue Yang, Lei Xu, Haibin Song, Xinhe Bao, Xiumei Liu, Xianchun Liu, Journal of Crystal Growth, 264(1-3) :400-408, 2004.

421)  Liquid-phase catalytic synthesis of 2, 5-dimethyl-2, 4-hexadiene by condensation of iso-butyl aldehyde with tert-butyl alcohol over solid acidic catalysts. Hua Wang, Zhongmin Liu*, Chenglin Sun, Gongwei Wang, Catalysis Today, 93-5: 425-431, 2004.

422)  Selective synthesis of 2, 5-dimethy1-2, 4-hexadiene by condensation of iso-buty1 aldehyde with tert-buty1 alcoho1 over molecular sieve catalysts. Hua Wang, Zhongmin Liu*, Chenglin Sun, Gongwei Wang, Catalysis Communications, 5:41-43, 2004.

423)  Solid-state MAS NMR studies on the hydrothermal stability of the zeolite catalysts for residual oil selective catalytic cracking. Jianqin Zhuang, Ding Ma, Gang Yang, Zhimin Yan, Xiumei Liu, Xianchun Liu, Xiuwen Han, Xinhe Bao*, Peng Xie, Zhongmin Liu, Journal of Catalysis, 228(1) :234-242, 2004.

424)  Influence of feeding way on CuO/ZnO/Al2O3 catalyst precursor. Deren Fang, Zhongmin Liu, Xiaoqiong Li,  Journal of Fuel Chemistry and Technology, 32(6):734-739, 2004.

425)  Influence of Precipitation temperature on CuO/ZnO/Al2O3 catalyst precursor. Deren Fang, Zhongmin Liu, Huimin Zhang, Natural Gas Chemical Industry, 29(4):28-32, 2004.

426)  Synthesis, characterization and application in PEMFC of zirconium oxo phosphate-sulfate. Zongbin Wu*, Jingrong Yu, Zhongmin Liu, Peng Tian, Yue Yang, Lei Xu, Journal of Chemical Industry and Engineering, 55:238-244, 2004.

427)  Synthesis of ketones and alcohols via syngas on Fe-Cu based catalysts. Yunlai Su*, Bo Liu, Supeng Pei, Xiangyu Wang, Zhongmin Liu, Chinese Journal of Catalysis, 25(9):683-684, 2004.

428)  On the acid-dealumination of USY zeolite: A solid NMR Investigation. Zhmin Yan, Ding Ma, Jianqin Zhuang, Xianchun Liu, Xiuwen Han, Xinhe Bao, Lei Xu, Zhongmin Liu*, Journal of Molecular Catalysis A:Chemical, 194(1-2) :153-167, 2003.

429)  Direct Observation of Various Al Sites in SAPO-34 by 27Al Multiquantum (MQ) Magic Angle Spinning (MAS) NMR. Zhimin Yan, Jianqin Zhuang, Lei Xu, Xiuwen Han, Zhongmin Liu, Xinhe Bao*, Chinese Chemical Letters, 14(1) : 87-90, 2003.

430)  Mn-containing ALPO-11 and SAPO-11 catalysts for simultaneous isomerization and dehydrogenation of n-butane. Yingxu Wei, Gongwei Wang*, Zhongmin Liu, Peng Xie, Yanli He, Lei Xu, Catalysis Letters, 91(1-2) :35-40, 2003.

431)  Quantified MS Analysis Applied to Combinatorial Heterogeneous Catalyst Libraries. Hua Wang, Zhongmin Liu*, Jianghan Shen, Journal of Combinatorial Chemistry, 5(6) :802-808, 2003.

432)  Preparation of Ru metal nanoparticles in mesoporous materials : influence of sulfur on the hydrogenating activity. Peng Tian, Juliette Blanchard, Katia Fajerwerg, Michèle Breysse, Michel Vrinat, Zhongmin Liu*, Microporous and Mesoporous Materials, 60(1-3) :197-206, 2003.

433)  Synthesis and Spectroscopic Study of Mesoporous Aluminum Methylphosphonate Foam Templated by Dibutyl Methylphosphonate. Zongbin Wu, Zhongmin Liu*, Peng Tian, Yanli He, Lei Xu, Xiumei Liu, Xinhe Bao, Xianchun Liu, Microporous and Mesoporous Materials, 62(1-2) :61-71, 2003.

434)  催化材料对病毒的吸附和灭活作用及对哺乳动物细胞的毒性. Zhongmin Liu*, Zhuoran Zhang, Guowang Xu, Ling Yang, Lei Ma, Chenglin Sun, Lei Xu, Yue Qi, Chunxia Zhao, Pingwen Ming, Yan Chen, Conglong Zheng, Xunpu Du, Xiuwen Han, Tao Zhang, Xiangyang Huang, Xinhe Bao, Bo Liu, Shouxin Liu, Aiqin Wang, Zhenping Qu, Shaojun Miao, Gang Hu, Ye Liu, Chinese Journal of Catalysis, 24(5):323-327, 2003.

435)  liquid phase hydration of FCC C4 mixtures catalyzed by zeolite catalysts. Hua Wang, Tao Huang, Gang Chen, Yu An, Zhongmin Liu*, Chinese Journal of Catalysis, 24(8) :567-568, 2003.

436)  组合多相催化研究进展. Hua Wang, Zhongmin Liu*, Progress In Chemistry (Chinese), 15(4):256-263, 2003.

437)  丁二烯调聚经甲辛醚制1-辛烯. Hua Wang, Jinling Zhang, Chenglin Sun, Zhongmin Liu*, Haishun Wan, Qingxin Hao, Petrochemical Technology (Chinese), 32(3) :200-204, 2003.

438)  Ethylenediammonium disodium (1-hydroxy-ethylidene)diphosphonate tetrahydrate, [NH3(CH2)2NH3]Na2(hedp).4H2O. Zongbin Wu, Zhongmin Liu*, Peng Tian, Lei Xu, Yanli He, Shiyun Sang, Yue Yang, Xiumei Liu, Xianchun Liu, Xinhe Bao, Acta Crystallographica Section E, 59:521-523, 2003.

439)  催化材料对病毒吸附及灭活作用特性的研究. Chunxia Zhao, Pingwen Ming, Ling Yang, Zhongmin Liu, Zhuoran Zhang, Lei Ma, Lei Xu, Yue Qi, Chenglin Sun, Xiuwen Han, Yan Chen, Zhenping Qu, Shaojun Miao, Conglong Zheng, Xinjie Zhao, Xunpu Du, Bo Liu, Hongwei Kong, Chang Wang, Fen Ye, Shouxin Liu, Gang Hu, Ye Liu, Tao Zhang, Xiangyang Huang, Xinhe Bao, Guowang Xu*, Chinese J ournal of Chromatography, 21(3) :222-225, 2003.

440)  The research of color change point with synthesis of methanol catalyst in Low pressure. Deren Fang, Haiyang Li, Shiqin Li, Zhongmin Liu, Journal of Fuel Chemistry and Technology, 31(6):610-614, 2003.

441)  Effect of alumina on Fe-Cu-Zn-K-Al catalyst for synthesis of higher alcohols. Su, YL; Liu, Y; Guo, YQ; Liu, ZM, CHINESE JOURNAL OF CATALYSIS, 24(10) :799-803, 2003.

442)  Deliydroisomerization of n-butane to isobutene over Pd/SAPO-11. Yingxu Wei, Gongwei Wang*, Zhongmin Liu, Peng Xie, Lei Xu, Studies in Surface Science and Catalysis, 142: 603-609, 2002.

443)  HY沸石上2,6-二叔丁基萘的择形合成. Hua Wang, Hui Zhang, Zhongmin Liu*, Chinese Journal of Catalysis, 23(2) :137-139, 2002.

444)  含钴、锰杂原子分子筛上烷烃低温分子氧氧化. Peng Tian, Lei Xu, Tao Huang, Peng Xie, Zhongmin Liu*, Chemical Journal of Chinese Universities, 23(4) :656-660, 2002.

445)  Crystallization and Si incorporation mechanisms of SAPO-34. Juan Tan, Zhongmin Liu*, Xinhe Bao, Xianchun Liu, Xiuwen Han, Changqing He, Runsheng Zhai, Microporous and Mesoporous Materials, 53(13) :97-108, 2002.

446)  Comparative Study of the Vanadium Species in VAPO-5 and VAPSO-5 Molecular Sieves. Jianqiang Yu, Meijun Li, Zhongmin Liu*, Qin Xin, Can Li, Journal of Physical Chemistry B, 106(35) :8937-8943, 2002.

447)  5,5,5-三氯-2-甲基-2-戊烯的制备. Jinling Zhang, Hua Wang, Zhongmin Liu*, Fine Chemicals, 19(10) :590-592, 2002.

448)  Ti-MCM-41 Synthesized from Colloidal Silica and Titanium Trichloride: Synthesis, Characterization and Catalysis. Jianqiang Yu, Zhaochi Feng, Lei Xu, Meijun Li, Qin Xin, Zhongmin Liu*, Can Li, Chemistry of Materials, 13(3):994-998, 2001.

449)  以硅溶胶和三氯化钛为原料合成Ti-MCM-41分子筛 I.Ti-MCM-41分子筛的合成. Jianqiang Yu, Can Li, Lei Xu, Meijun Li, Qin Xin, Zhongmin Liu*, Chinese Journal of Catalysis, 22(3) :267-270, 2001.

450)  以硅溶胶和三氯化钛为原料合成Ti-MCM-41分子筛  Ⅱ.Ti-MCM-41分子筛的表征. Jianqiang Yu, Can Li, Lei Xu, Meijun Li, Qin Xin, Zhongmin Liu*, Chinese Journal of Catalysis, 22(4) :331-334, 2001.

451)  以硅溶胶和三氯化钛为原料合成Ti-MCM-41分子筛Ⅲ.Ti-MCM-41分子筛的催化活性. Jianqiang Yu, Can Li, Lei Xu, Meijun Li, Qin Xin, Zhongmin Liu*, Chinese Journal of Catalysis, 22(4) :335-338, 2001.

452)  Identification of Vanadium Species in VAPO and VAPSO Aluminophosphate by UV Resonance Raman Spectroscopy. Jianqiang Yu, Zhongmin Liu*, Qin Xin, Can Li, Studies in Surface Science and Catalysis, 137:356-362, 2001.

453)  Coke species and coking mechanism of SAPO-34 in MTO process. Yue Qi, Gongwei Wang*, Zhongmin Liu, Lei Xu, Xiuying Gao, Wei Cui, Studies in Surface Science and Catalysis, 135:299-299, 2001.

454)  Crystallization mechanism of AlMePO-β. Yue Qi, Gongwei Wang*, Zhongmin Liu, Studies in Surface Science and Catalysis, 135:278-278, 2001.

455)  SAPO分子筛的酸性及孔道分布对丁烷异构脱氢反应的影响.Yingxu Wei, Gongwei Wang*, Zhongmin Liu, Lei Xu, Peng Xie, Chinese Journal of Catalysis, 22(6) :537-540, 2001.

456)  磷铝系列分子筛催化剂的制备、表征及催化丁烷转化反应的性能. Yingxu Wei, Gongwei Wang*, Zhongmin Liu, Chenglin Sun, Lei Xu, Zhenwu Dong, Chinese Journal of Catalysis, 22(1) :15-17, 2001.

457)  新型磷酸硅铝分子筛SAPO-56的合成与表征. Peng Tian, Lei Xu, Zhongmin Liu*, Chenglin Sun, Tao Huang, Chemical Journal Of Chinese Universities, 22(6) :991-994, 2001.

458)  Dehydroisomerization of n-butane to isobutene over Pd modified silicoaluminophosphate molecular sieves. Yingxu Wei, Gongwei Wang, Zhongmin Liu*, Chenglin Sun, Lei Xu, Studies in Surface Science and Catalysis, 135:145-145, 2001.

459)  Synthesis and characterization of the silicoaluminophosphate SAPO-47. Lei Xu, Zhongmin Liu*, Peng Tian, Yingxu Wei, Chenglin Sun, Shinian Li, Studies in Surface Science and Catalysis, 135:247-252, 2001.

460)  Synthesis, characterization and catalysis of SAPO-56 and MAPSO-56 molecular sieves. Peng Tian, Zhongmin Liu*, Lei Xu, Chenglin Sun, Studies in Surface Science and Catalysis, 135:248-255, 2001.

461)  Dialkylation of Naphthalene with Isopropanol over Acidic Zeolites: Influence of Pore Structure on Selectivity. Patrice Moreau, Changqing He, Zhongmin Liu, Francois Fajula, Journal of Molecular Catalysis A, 168(1-2) :105-114, 2001.

462)  用共振增强双光子电离法实时研究甲烷无氧芳构化反应的诱导期. Lijie Men, Jiling Bai, Guohe Sha, Zhongmin Liu*, Jinchun Xie, Chinese Journal of Catalysis, 22(3) :294-296, 2001.

463)  A new phenomenon in the induction period of methane dehydroaromatization reaction. Lijie Men, Li Zhang, Yan Xie, Zhongmin Liu, Jiling Bai, Guohe Sha, Jinchun Xie*, Chemical Communications, (18):1750-1751, 2001.

464)  New progress in R&D of lower olefin synthesis. Zhongmin Liu*, Chenglin Sun , Gongwei Wang, Qingxia Wang, Guangyu Cai, Fuel Processing , 62(2-3):161-172, 2000.

465)  通过偶联反应合成1,2‘-联萘*. Wang, Hua; Zheng, Lubin; Sun, Chenglin; Zhongmin Liu*,  Chemical World, 41(6) :303-305, 2000.

466)  含有机基团的磷铝分子筛的合成和表征. Xianchun Liu, Yue Qi, Gongwei Wang, Xiuwen Liu, Zhongmin Liu, Xinhe Bao*, Catalytic science and technology in the new century, 515-516, 2000.

467)  Coke formation during the methanol conversion to olefins in zeolites studied by UV Raman spectroscopy. Jian Li, Guang Xiong, Zhaochi Feng, Zhongmin Liu, Qin Xin, Can Li*, Microporous and Mesoporous Materials, 39(1-2):275-280, 2000.

468)  Synthesis of inorganic titanium source and silicon source Ti-MCM-41 mesoporous molecular sieves. Jianqiang Yu, Meijun Li, Peng Tian, Zhongmin Liu, Qin Xin, Can Li*, Microporous and Mesoporous Materials, 13(3):994-998, 2000.

469)  大孔沸石催化剂上苯与丙烯液相烷基化反应行为的研究. Changqing He, Zhongmin Liu*, Yingzhen Zhang, Fuel Technology (Chinese), 27(3) :203-208,1999.

470)  SAPO-34分子筛研究进展. Juan Tan, Changqing He, Zhongmin Liu*, Natural gas Chemistry Industry (Chinese), 24(2) :47-53,1999

471)  SAPO-34分子筛晶化过程中硅进入骨架的方式和机理. Juan Tan, Zhongmin Liu*, Changqing He, Xianchun Liu, Xiuwen Han, Runsheng Zai, Xinhe Bao, Chinese Journal of Catalysis, 20(3) :227-232 , 1999.

472)  Methanol to olefin conversion catalysts. Zhongmin Liu*, Juan Liang, Current Opinion in Solid State & Materials Science, 4(1) :80-84, 1999.

473)  SAPO-34分子筛晶化过程的MAS  NMR研究. Xianchun Liu, Xiuwen Han, Tan Juan, Xiumei Liu, Zhongmin Liu, Xinhe Bao *, Chinese Journal of Magnetic Resonance, 15(5):453-456, 1998.

474)  Unusual results in the liquid phase alkylation of naphthalene with isopropyl alcohol over zeolite H-beta. Changqing He, Zhongmin Liu, Francois Fajula, Patrice Moreau, Chemical  Communications (Cambridge), (18):1999-2000, 1998.

475)  Research progress and pilot plant test on SDTO process SDTO. Zhongmin Liu*, Guangyu Cai, Chenglin Sun, Changqing He, Yanjun Chang, Lixin Yang, Renmin Shi, Juan Liang, Studies in Surface and Catalysis, 119:895-900, 1998.

476)  The research on crystallization of SAPO-34 molecular sieve. WeiTan, Zhongmin Liu*, Changqing He, Xianchun Liu, Xiuwen Han, Runsheng Zhai, Xinhe Bao, Chinese Journal of Catalysis, 19(5):436-441, 1998.

477)  The stability study of SAPO – 34 Silicon aluminum phosphate molecular sieve. Changqing He, Zhongmin Liu, Xingyun Huang,  Journal of Chemical Physics, 10(2):181-186, 1997.

478)  Framework stability of molecular sieve SAPO-34. Changqing He, Zhongmin Liu, Guangyu Cai, Xingyun Huang, Lixin Yang, Yue Yang. Chinese Journal of Catalysis. 18(4):293-293, 1997.

479)  SAPO-34分子筛的热稳定性及水热稳定性. Zhongmin Liu*, Xingyun Huang, Changqing He, Yue Yang, Lixin Yang, Guangyu Cai, Chinese Journal of Catalysis, 17(6) :540-543, 1996.

480)  CoAPSO-34分子筛的合成与性能. Changqing He, Zhongmin Liu*, Lixin Yang, Guangyu Cai, Qin Xin, Pinliang Ying, Chinese Journal of Catalysis, 17(4) :291-295, 1996.

481)  SAPO-34分子筛表面酸性质的研究. Changqing He, Zhongmin Liu*, Guangyu Cai, Qin Xin, Pinliang Ying , Journal Of Molecular Catalysis (Chinese), 10(1) :48-54, 1996.

482)  Development of catalysts for synthesizing dimethyl ether from synthesis gas. Renmin Shi, Guangyu Cai, Zhongmin Liu, Chenglin Sun, Journal of Natural Gas Chemistry, 5(4):207-213, 1996.

483)  Selective alkylation of naphthalene with tert-butyl alcohol over large pore zeolites. Zhongmin Liu, Patrice Moreau*,Francois Fajula, CHEMICAL COMMUNICATIONS, (23): 2653-2654, 1996.

484)  Adsorption of methane on zeolite studied by FT-IR Spectroscopy. Can Li, Guoqiang Li, Zhongmin Liu, Qin Xin, Progress in Natural Science, 5(2) :230-233,1995.

485)  模板剂对SAPO-34分子筛晶粒尺寸和性能的影响. Changqing He, Zhongmin Liu*, Lixin Yang, Guangyu Cai, Chinese Journal of Catalysis, 16(1) :33-37, 1995.

486)  与浓度相关的扩散系数Dt的求取. Zhongmin Liu, Lubin Zheng, Guoquan Chen, Guangyu Cai, Qingxia Wang, Science in China, 25(7):704-709, 1995.

487)  模板剂对SAPO-34分子筛性能的影响. Changqing He, Zhongmin Liu*,  Lixin Yang, Guangyu Cai, Qin Xin, Pinliang Ying , Journal of Fuel Chemistry and Technology, 23(3) :306-311, 1995.

488)  Light alkenes from syngas via dimethyl ether. Guangyu Cai, Zhongmin Liu*, Renmin Shi, Changqing He, Lixin Yang, Chenglin Sun, Yanjun Chang, Applied Catalysis A:General, 125(1) :29-38, 1995.

489)  Synthesis of light olefins from syngas via dimethylether a new technique process. Guangyu Cai, Zhongmin Liu*, Renmin Shi, Changqing He, Lixin Yang, Chenglin Sun, Journal of Natural Gas Chemistry, 4(2) :148-155, 1995.

490)  Evaluation of concentration-dependent diffusivity with uptake curve. Zhongmin Liu, Lubin Zheng, Guoquan Chen, Guangyu Cai, Qingxia Wang, J.Chem.Soc.Faraday Trans, 90(19) :3007-3010, 1994.

491)  分子筛催化剂的失活与积炭. Zhongmin Liu, Guoquan Chen, Qingxia Wang, Juan Liang , Guangyu Cai, Chinese Journal of Catalysis, 15(4) :301-303, 1994.

492)  合成气经由二甲醚制取低碳烯烃. Guangyu Cai, Zhongmin Liu*, Renmin Shi , Changqing He, Lixin Yang, Chenglin Sun*, Natural Gas Chemical Industry, 19(5) :26-30, 1994.

493)  双模板剂法控制SAPO-34分子筛的晶粒尺寸. Changqing He, Zhongmin Liu*, Lixin Yang, Guangyu Cai, Journal of molecular catalysis (Chinese), 8(3):207-212, 1994.

494)  甲烷在分子筛上的吸附研究. Canli, Guoqiang Li, Zhongmin Liu, Qin Xin, Progress of natural science, 4(5):632-634, 1994.

495)  分子筛中的结炭及其氧化烧除. Zhongmin Liu*, Guoquan Chen Qingxia WangJuan Liang Guangyu Cai, Petroleum and Chemical, 23(9) :584-587, 1994.

496)  三乙胺法合成磷硅铝分子筛SAPO-34的研究. Changqing He, Zhongmin Liu*, Lixin Yang, Guangyu Cai, Natural Gas Chemical Industry, 18(6) :14-18, 1993.

497)  Deactivation of zeolite catalysts in methanol conversion to Hydrocarbons. Zhongmin Liu, Guoquan Chen, Juan Liang, Qingxia Wang, Guangyu Cai, Studies of Surface Science and Catalysis., 68, 815-818,1991.

       498)   甲醇转化过程中的积炭行为. Zhongmin Liu, Guoquan Chen, Juan Liang, Fuel Chemistry and Technology (Chinese),               16(2):104-110, 1988.


Patents

1)Built-in electrode electrical capacitance tomography sensor,PCT/CN2019/084748; United States,US 11,169,915B2

2)Method for preparation of hierarchical TS-1 molecular sieve, PCT/CN2018/115721;Australia, AU2018449735

3)Method for producing hierarchical porous titanate silicate molecular sieve TS-1, PCT/CN2018/115720;Russia,RU 2769979

4) Method for directly preparing dimethyl ether by synthesis gas, PCT/CN2018/098069; United States,US 11,247,959B2

5)Composite catalyst, method of producing same and method of producing ethylene, PCT/CN2018/080924; Russia,RU 2767667

6) Cu-SAPO molecular sieve, synthesis method therefor and catalytic use thereof, PCT/CN2017/074985; Russia, RU2730479; Australia, AU2017400922, Japan, JP6990712

7)In-situ preparation method for catalyst for preparing at least one of toluene, p-xylene and low-carbon olefin, and reaction process, PCT/CN2017/082222;United States, US11,179,714B2;South Korea, KR10-2326358;Japan, JP6894530, Russia, RU 2747308

8) Catalyst for synthesizing aromatic hydrocarbons and preparation method thereof, PCT/CN2017/098509; The Great Britain, GB2570592

9) Method for directly producing ethanol from syngas, PCT/CN2017/104554; East Asia,EA040054

10) Fluidized bed gas distributor, reactor using fluidized bed gas distributor, and method for producing para-xylene and co-producing low-carbon olefins, PCT/CN2017/112807; Russia, RU2737365; United States, US10,967,350B2; South Korea, KR10-2287015B2; Japan, JP6920461

11) Device and method for preparing para-xylene and co-producing low-carbon olefins from methanol and/or dimethyl ether and toluene, PCT/CN2017/112809; United States,US11311852B2; South Korea, KR10-2309241; Japan, JP7049361; Russia,RU 2744214

12) Fluidized bed apparatus and method for preparing para-xylene co-produced low-carbon olefin from methanol and/or dimethyl ether and toluene, PCT/CN2017/112811; Japan, JP 6850905;United States, US11,180,431B2; South Korea,KR10-2309238; India, IN370735; Russian, RU 2743989

13) Fluidized bed reactor and method for producing para-xylene co-produced low-carbon olefin from benzene and methanol and/or dimethyl ether, PCT/CN2017/112812; United States,US11,072,571B2; South Korea,KR10-2325164; India, IN388592; Russian, RU 2745438

14) Fluidized bed apparatus and method for preparing para-xylene co-produced low-carbon olefin from methanol and/or dimethyl ether and benzene, PCT/CN2017/112813; Japan, JP 6848088; United States,US11,161,085B2; South Korea,KR10-2309236; India,IN383698; Russian, RU 2743135

15)Apparatus and method for preparing para-xylene co-producing low-carbon olefin from methanol and/or dimethyl ether and benzene, PCT/CN2017/112814; Japan, JP7046977; United States,US1,1084,765B2; South Korea,KR10-2309237; Russian, RU 2742576

16) Molecular sieve-based catalyst modification apparatus, and method, PCT/CN2017/113984; Japan, JP7038820; Russian, RU 2752947

17) Method for partially regenerating methanol to olefin catalyst and methanol to olefin process, PCT/CN2017/114567; Japan, JP7008138; South Korea,KR10-2400421; Russian, RU 2753348

18)Molecular sieve catalyst, preparation method therefor and application thereof, PCT/CN2017/117561; Japan, JP6976436; Russian, RU 2753413

19) Method for preparing low-grade unsaturated fatty acid ester, PCT/CN2016/107246; Japan, JP6770195; United States,US 10,919,832

20Method for synthesizing MOR molecular sieve, and product and use thereof, PCT/CN2016/109273; South Africa, ZA2019/03757; Australia, AU2016431572; Japan, JP6834003; United States, US 10,968,109B2; East Asia, EA038140

21) Method for preparing acrylic acid and methyl acrylate, PCT/CN2016/107284; Japan, JP6806899

22) Method and device for manufacturing propene and C4 hydrocarbon, PCT/CN2016/102566; South Africa, ZA2019/03064; Australia, AU2016427080; South Korea, KR10-2243318; Singapore, SG11201903494W; United States, US10,640,433; Russia, RU2727699; Japan, JP6883099; India IN392412

23) Fast fluidized-bed reactor, device, and method using oxygen-containing compound for manufacturing propene or C4 hydrocarbon; PCT/CN2016/102565; United States, US 10,702,841B2; South Korea, KR10-2243311; South Africa, ZA2019/03066Japan, JP 6817427; Singapore, SG11201903506Y; India, IN359086; Russia, RU2722772; Australia, AU2016427079

24) Method and device for manufacturing propene and C4 hydrocarbon, PCT/CN2016/102561; South Africa, ZA2019/03068; Australia, AU2016427078; South Korea, KR10-2243320; Singapore, SG11201903490U; India, IN362786; United States, US10,626,062; Russia, RU2726483; Japan, JP 6864957

25) Turbulent fluidized-bed reactor, device, and method using oxygen-containing compound for manufacturing propene and C4 hydrocarbon, PCT/CN2016/102560; South Africa, ZA2019/03067; Australia, AU2016426746; South Korea, KR10-2243316; Singapore, SG11201903497Q; United States, US10,710,940B2; Russia, RU 2712274; Japan, JP 6883100; India IN376886

26) Method for synthesizing nano sapo-34 molecular sieve, and SAPO-34 molecular sieve catalyst and application thereof, PCT/CN2016/092827; United States, US 10,822,244; Australia, AU2016417175;

Europe,EP3495320; East Asia,EA038042

27) Methyl acetate preparation method, PCT/CN2015/096653; East Asia, EA032939; Europe, EP3326996; Japan, JP6523549; Australia, AU2015403144; United States, US10,287,233B2; India, IN340492; South Africa, ZA2018/00637; Iran, IR97472;Brazil,BR 112018 001186-0; Uzbekistan, IAP06504; Mongolia MN-10-0005061;Indonesia,ID P000073411

28) Method forpreparing acetal carbonyl compound, PCT/CN2015/096647; East Asia, EA035211; Europe, EP3326995; Japan, JP6523548; United States, US10,508,073B2; India, IN345467

29) Lower fatty carboxylic acid alkyl ester production method, PCT/CN2015/096646; East Asia, EA035233; South Africa, ZA2018/00636; Europe, EP3326994; Canada, CA2,993,146; Japan, JP6523550; United States, US10087135B2; Australia, AU2015403142; Indonesia, ID P000071508; India, IN364939; Iran, IR97397;Brazil,BR 112018 001168-1,MongoliaMN-10-0005060; Uzbekistan, IAP06503

30) Process for converting naphtha, PCT/CN2015/080591; United States, US10538711B2;

31) Beta molecular sieve having multi-level channel structure, and preparation method thereof, PCT/CN2014/073894; Brazil,BR 112016002757-4; Japan, JP62286770; Australia, AU2014311141; India, IN311343; East Asia,EA031800; South Korea; KR10-1818935

32) Method for preparing Y-type molecular sieve having high silica to alumina ratio, PCT/CN2014/093181; South Korea, KR10-1892951; Japan, JP6383100; United States, US10252917; Australia, AU2014404762

33) Method for synthesizing nano-ZSM-5 zeolite, PCT/CN2014/092835; Indonesia, IDP000063222; India, IN324576; Australia, AU2014413311; Malaysia,MY-185274-A

34) Method for preparing methyl formate and coproducing dimethyl ether, PCT/CN2014/091291; East Asia, EA031809; South Korea, KR10-1965523; Japan, JP6435056; United States, US9,938,227; Europe, EP3222609; India, IN339796; Malaysia, MY-173577-A; South Africa, ZA2017/03477; Brazil, BR 11 2017 010202-1

35) Method for preparing methyl formate, PCT/CN2014/091289; Indonesia, IDP000068991; South Korea, KR10-1977784; India, IN334150; Japan, JP6407428; United States, US9,944,588B2

36) Method for preparing paraxylene and co-producing propylene with high selectivity, PCT/CN2014/079144; South Korea, KR10-1912398; Europe, EP3153490; India, IN326575; Japan, JP6408612; Singapore, SG11201610150P; United States, US10,099,973B2; Malaysia, MY-188942-A

37) Method for preparing paraxylene and propylene from methanol and/or dimethyl ether, PCT/CN2014/079141; Europe, EP3153489; South Korea, KR10-1900063; India, IN337595; Japan, JP6408611; United States, US9994496B2; Singapore, SG11201610151S; Malaysia, MY-171758-A

38) Process for preparing methyl acetate, PCT/CN2014/000124; South Korea, KRKR10-1717865;; India, IN308126; East Asia, EA027396; South Africa, ZA2015/04517; Australia, AU2014203724; Japan, JP6059822; Europe, EP2940000; United States, US9440226B2; Brazil, BR 112015 014700-3

39)Method for preparing polyoxymethylene dimethyl ether carbonyl compound and methylmethoxyacetate, PCT/CN2013/090242;South Korea, KR10-1862042; India, IN308284; Europe, EP3088381; United States, US9,708,240B2; Japan, JP6212221; Singapore; SG11201605107X; Malaysia,MY-171956-A; Australia, AU2013409375; Brazil, BR 112016013837-6; South Africa,ZA2016/04491;Indonesia, IDP000069892;East Asia,EA029435

40) Method for producing ethanol and coproducing methanol, PCT/CN2013/089539; South Korea, KR10-1855876; East Asia, EA028834; Indonesia, IDP0000059027; Australia, AU2013408110; India, IN319011; Singapore, SG11201604942R; Malaysia, MY-171339-A; United States, US10,059,649B2; Japan, JP6244465; Europe, EP3085682; South Africa, ZA2016/03870; Brazil, BR 112016013033-2

41) Method for preparing NaY molecular sieve of high silica-alumina ratio and product thereof, PCT/CN2013/088875; South Korea, KR10-1833322; United States, US9,738,538B2

42) Reaction device for preparing light olefins from methanol and/or dimethyl ether, PCT/CN2013/088413; Europe, EP3078414; Russia, RU2636077; South Korea, KR10-1763864; United States,US9,827,544B2; Japan, JP6230722; Singapore, SG11201604419X;Brazil,BR 112016012613-0; Russian, RU2636077

43) Method for preparing a light olefin with an oxygen-containing compound, PCT/CN2013/088398; South Korea, KR10-1847474; Russia, RU2632905; India, IN312635; Europe, EP3078651; United States, US9,725,375B2; Japan, JP6189544; Singapore, SG11201604429V; Brazil,BR 12016012633-5

44) Method for preparing a light olefin using an oxygen-containing compound and device for use thereof, PCT/CN2013/088388; South Korea, KR10-1864442; Russia, RU2635553; India, IN306266; Europe, EP3078652; United States, US9,718,743B2; Japan, JP6199493; Singapore; SG11201604424Y; Malaysia, MY-177806-A;Brazil,BR 112016012646-7

45) SAPO-34 zeolite having diglycolamine as templating agent and synthesis method for the zeolite, PCT/CN2012/086280; South Africa, ZA2015/04518; Japan, JP6076496; South Korea, KR10-1920959; Brazil, BR 11 2015 013359-2; Indonesia, IDP000052320; Malaysia, MY-171805-A; Europe, EP2930148; United States, US9,611,150B2; Singapore, SG11201504127X; Australia, AU2012396750

46) SAPO-34 molecular sieves and synthesis method thereof, PCT/CN2012/082000; South Korea, KR10-1763498; Europe, EP2902107; East Asia, EA025504; Indonesia, IDP000063152; Brazil, BR 11 2015 006463 9; South Africa, ZA2015/01937, United States, US9,744,526; Malaysia, MY-173565-A; Australia, AU2012391395; Singapore, SG11201501836S

47) SAPO-34 molecular sieves and synthesis method thereof, PCT/CN2012/081995; South Korea, KR10-1652209; Europe, EP2902362; East Asia, EA026545; Indonesia, IDP000052964; Japan, JP6006879; South Africa, ZA2015/01936; United States, US9,695,057; Brazil, BR 112015006461-2; Malaysia, MY-171426-A; Australia, AU2012391394; Singapore, SG11201501834Y

48)  Catalyst for preparing paraxylene by mutual conversion of methyl alcohol and/or dimethyl ether and C4 liquefied gas, and preparation method and application therefor, PCT/CN2012/074709 ; South Africa, ZA2014/05040; Indonesia, IDP000047451; India, IN310717 ; Japan, JP5873570; Malaysia, MY-168285-A ; South Korea, KR-10-1593467 ; United States, US9968922; Europe, EP2803407; Australia, AU2012357512; Singapore, SG11201402787Q

49) Catalyst used in the production of ethylene and propylene from methanol and/or dimethyl ether and preparation and application thereof, PCT/CN2012/074518; South Africa, ZA2014/05035; Indonesia, IDP000056179; Japan, JP5881856; Malaysia, MY-166284-A; United States, US9844770B2; South Korea, KR10-1622496; Europe, EP2796197; Australia, AU2012357510 ; Singapore, SG11201402785R; East Asia, EA024895

50) Process for preparing propylene, PCT/CN2011/076649; East Asia, EA024284

51) Solvothermal synthesis process of SAPO molecular sieves and catalysts prepared thereby, PCT/CN2011/076332; Australia, AU2011349908; Indonesia, IDP000041577; South Korea, KR10-1461541; South Africa, ZA2013/05421; India, IN293781; Singapore, SG191421; Malaysia, MY-157590-A; Japan, JP5667311; United States, US9168516B2; Brazil, BR112013016489-1

52) Process for catalytic cracking naphtha coupled with methanol using modified ZSM-5 molecular sieve catalyst, PCT/CN2011/076298; South Korea, KR10-1550202; Indonesia, IDP000046076; India, IN295842; Australia, AU2011349906; South Africa, ZA2013/05273; Singapore, SG191805 ; United States, US9,284,235B2; Malaysia, MY-163178-A; Japan, JP5756867; Brazil, BR112013016481-6

53) A process for starting up a fluidized catalytic reaction apparatus used for producing lower olefins, PCT/CN2007/002549; South Korea, KR10-1092899; Japan, JP5009370; Europe, EP2055690; Singapore, SG149613; United States, US10,259,757B2

54) A process for recovering regenerated heat during the production of lower olefins from methanol, PCT/CN2007/002537; Singapore, SG149612; South Africa, ZA2009/01045

55) Microsphere catalyst for conversion of oxygen containing compounds to olefine and preparation method thereof, PCT/CN2007/002350; Malaysia, MY-158545-A

56) SAPO-34 molecular sieve having both micropores and mesopores and synthesis menthod thereof, PCT/CN2007/002348; Malaysia, MY-144448-A; Japan, JP4891398; India, IN265449; Australia, AU2007288012; South Korea, KR10-1142350; South Africa, ZA2008/10115

57) A microsphere catalyst used for converting oxgen compound to olefine and preparation method thereof, PCT/CN2007/002309; Australia, AU2007283967; India, IN266661; South Korea, KR10-1127996; South Africa, ZA2009/01325; Japan, JP5174815; Malaysia, MY-154554-A

58) Method for producing light olefin from methanol or/and dimethyl ether, PCT/CN2007/002267; South Korea, KR10-1138849; Australia, AU2007348551; Japan, JP5313929; United States, US8,148,587; Singapore, SG154890; Europe, EP2133319

59)Method and device for on-line detection of carbon content and application thereof, China, ZL202010106072.X

60) The invention relates to a fluorine-containing high-silicon Y molecular sieve and a preparation method thereof, China, ZL201910312332.6

61) Organic-inorganic hybrid ultraviolet absorbing material as well as preparation method and application thereof, ZL201910382375.1

62) The invention relates to a dry glue conversion synthesis method of a high-silicon Y molecular sieve, China, ZL201910312322.2

63) The invention discloses a microfluidic chip and application thereof, China, ZL201910530685.3

64) Catalyst for producing methyl acetate through carbonylation of dimethyl etherand preparation method and application thereof, China, ZL201911106860.2

65) The invention relates to a catalyst as well as a preparation method and application thereof, China, ZL201911067628.2

66)Catalyst for preparation of vinyl chloride by coupling reaction of acetylene and dichloroethane and its application, China, ZL201911182362.6

67) The invention relates to a ZSM-57 molecular sieve and a preparation method thereof, China, ZL201910393482.4

68) Layered compound as well as preparation method and application thereof, China, ZL201911285033.4

69) A method for preparing hydrocarbon compounds from methane, China, ZL201911004363.1

70) The invention relates to a preparation method of aromatic hydrocarbon, China, ZL201911129126.8

71A method for preparing acetic acid from halomethane, China, ZL201911261756.0

72) Catalyst for producing acrylic acid and methyl acrylate as well as preparation method and application of catalyst, China,          ZL201910430774.0

73) Method for rapidly preparing ECR-1 molecular sieve with high crystallinity, China,ZL201910393779.0

74) Composite catalyst as well as preparation method and application thereof, China,ZL201910299011.7

75) Methanol carbonylation catalyst as well as preparation method and application thereof, China,ZL201910281912.3

76) Method for producing methyl acetate by carbonylation of dimethyl ether, China,ZL201910281181.2

77) Method for preparing coronenecompound from non-cyclic olefin, China,          ZL201910264948.0

78) Method for preparing coronene compound by using molecular sieve catalyst, China,ZL201910264943.8

79) Preparation method of coronene compound, China, ZL201910264935.3

80) Ethylene/ethane separation method, China, ZL201910241494.5

81) Propylene/propane separation method        , China, ZL201910241441.3

82) Method for determining acidity of SAPO molecular sieve with small-pore cage structure, China,ZL201910227541.0

83) Molecular sieve catalyst and preparation method and application thereof, China,ZL201910107338.X

84) Method for producing methyl acetate and acetone, China, ZL201910107337.5

85) Catalyst for co-production of methyl acetate and acetone from dimethyl ether and preparation method and application thereof      , China, ZL201910107336.0

86) Method for preparing ketone organic matters, China, ZL201910107123.8

87) Method for converting naphtha-containing raw material into low-carbon olefin and/or aromatic hydrocarbon, China, ZL201910080466.X

88) Naphtha-containing raw material conversion device, China, ZL201910080462.1

89) Rapid fluidized bed reactor for preparing ethylene from coal-based ethanoland method for preparing ethylene from coal-based ethanol, China, ZL201811459873.3

90) Porous material for fluid mechanics visual measurement and preparation method and application thereof, China, ZL201811458890.5

91) Method for preparing ethylene by ethanol dehydration, China, ZL201811458081.4

92) Preparation method and application of catalyst, China, ZL201811415504.4

93) Method for preparing lower olefin from synthesis gas , China, ZL201811367723.X

94) Method for preparing P-xylene and CO-producing ethylbenzene and propylene from methanol and/or dimethyl ether and benzene, China, ZL201811362316.X

95) Method for preparing hierarchical pore titanium-silicon TS-1 molecular sieve, China,ZL201811362063.6

96) Method for preparing hierarchical pore TS-1 molecular sieve, China, ZL201811362061.7

97) Macromolecular ultraviolet absorbent, preparation method and applications thereof, China,ZL201811360907.3

98) Preparation method of polyester polyol, China,          ZL201811360905.4

99) Preparation method of hierarchical pore TS-1 molecular sieve, China, ZL201811360897.3

100) Electrical capacitance tomography sensor and system for high-temperature fluidized bed measurement, China, ZL201811347295.4

101) Capacitance tomography sensor and system, China, ZL201811346320.7

102) Sealing method of acrylic glass micro-fluidic chip, China, ZL201811343765.X

103) Molecular sieve material with alkali molecules enriched on surface layer, preparation method and applications thereof, China, ZL201811285689.1

104) Preparation method of metal modified SAPO-34 molecular sieve, China, ZL201811082991.7

105) Adsorbent, preparation method and applications thereof, China, ZL201811029468.8

106) Silicon-aluminum phosphate molecular sieve with ATS skeleton structure, as well as preparation method and application thereof   , China, ZL201810913857.0

107) Silicoaluminophosphate molecular sieve with LTA skeleton structure, preparation method and applications thereof, China, ZL201810869652.7

108) Method for producing P-tert-butylphenol, China, ZL201810778652.6

109) Capacitive Tomographic sensor with build-in electrodes, China, ZL201810432339.7

110) Composite catalyst, preparation method thereof and preparation method of ethylene     , China,ZL201810267180.8

111) Selective adsorption molecular sieve and preparation method thereof, China, ZL201810193605.5

112) The invention relates to a catalyst for synthesizing aromatic hydrocarbons,  and a preparation method and application thereof, China,ZL201810476839.0

113) A process for converting a naphtha-containing feedstock to lower olefins and aromatics, China, ZL201811446180.0

114)The utility model relates to a mobile imaging device based on a capacitive tomography imaging sensor, China,ZL201811367793.5

115)The invention relates to a method for preparing ethylene by ethanol dehydration, China, ZL201811458926.X

116) The invention relates to a method for directly preparing dimethyl ether from synthesis gas, China, ZL201810473642.1

117) Macromolecular ultraviolet absorbent, preparation method and applications thereof, China, ZL201811360907.3

118) Sealing method of acrylic glass micro-fluidic chip, China, ZL201811343765.X

119) Method for measuring mass transfer coefficient and pore internal diffusion coefficient of porous medium surface, China, ZL201811325520.4

120) Method for producing 2, 6-xylenol through phenol alkylation, China, ZL201810864428.9

121) Method for producing P-tert-butylphenol, China, ZL201810778652.6

122) ZSM-35 molecular sieve as well as preparation method and application thereof, China, ZL201810639073.3

123) Mordenite molecular sieve, preparation method and application thereof, China, ZL201810638021.4

124) Method for preparing low-carbon olefin from methanol and/or dimethyl ether under high pressure hydrogen presence condition, China, ZL201810579794.X

125) Method for coproducing low-carbon olefins and aromatic hydrocarbons from methanol and/or dimethyl ether, China, ZL201810580789.0

126) High temperature resistant signal transmission line and high temperature resistant capacitance tomography sensor, China, ZL201810432328.9

127) Continuous catalytic extraction method for preparing methylal, China, ZL201810333163.X

128) Composite catalyst, preparation method thereof and ethane preparation method, China, ZL201810265251.0

129) Method for directly converting ethylene to prepare propylene, China, ZL201810224320.3

130) Selective adsorption molecular sieve and preparation method thereof, China, ZL201810193605.5

131) SAPO-34 molecular sieve preparation method, acid catalyst, and catalyst for olefin preparing reaction by converting oxygen-containing compound, China, ZL201711351342.8

132) Method for partially regenerating catalyst of methanol to olefin and method of methanol to olefin, China, ZL201711267113.8

133) Method for directly preparing p-xylene from synthesis gas and methylbenzene         , China,ZL201711133393.3

134) Method of directly preparing paraxylene from synthetic gas and aromatic hydrocarbon, China,ZL201711133301.1

135) Method for directly preparing aromatic co-production low-carbon olefin from synthesis gas, China, ZL201711133196.1

136) Method for directly producing methyl acetate and/or acetic acid by synthesis gas, China,ZL201710915852.7

137) Method for preparing Y-shaped molecular sieve with high silicon to aluminum ratio, China,ZL201710833818.5

138) A preparation method of a catalyst for triethylenediamine synthesis from ethylenediamine under a solvent-free condition, China,ZL201710723617.X

139) Method for preparing activated carbon by using microalgae-alginate composite, China,ZL201710357655.8

140) Method for preparing activated carbon by taking alginate as raw material        , China,ZL201710357219.0

141) Fluidized-bed apparatus and method to co-produce p-xylene and light olefins by methanol and/or dimethyl ether and benzene, China,ZL201710287764.7

142) Cu-SAPO molecular sieve, and synthetic method and catalysis application thereof, China,ZL201710108084.4

143) Cu-SAPO molecular sieve and synthetic method thereof, and application of Cu-SAPO molecular sieve to denitration reactions, China, ZL201710107559.8

144) The invention relates to a Cu-SAPO molecular sieve synthesis method, a synthesized Cu-SAPO molecular sieve and an application thereof, ZL201710566426.7

145) The invention relates to a Cu-SAPO-34 molecular sieve synthesis method,  a synthesized molecular sieve and an application thereof, China, ZL201710566782.9

146) The invention relates to a method for directly preparing aromatic hydrocarbons from synthesis gas, China, ZL201711133394.8

147) Gaseous phase etherifying production method of complex ether with mixed phenol methanol, China, ZL201711395036.4

148) Denitration catalyst, preparation method thereof and application of denitration catalyst in tail gas or waste gas denitration, China, ZL201711240016.X

149) SCR (Selective Catalytic Reduction) reaction process, China, ZL201711240049.4

150) Molecular sieve catalyst modification apparatus and method, China, ZL201711245490.1

151) Catalytic rectification device and method for preparing methylal from methanol and formaldehyde, China, ZL201711244159.8

152) Extraction catalytic distillation method for preparing methylal, China, ZL201711240190.4

153) Method for preparing unsaturated lower fatty acid and/or unsaturated lower fatty acid ester, China, ZL201711242606.6

154) Mercury-free catalyst, preparation method thereof and application of mercury-free catalyst in vinyl chloride preparation, China, ZL201711154986.8

155) Molecular sieve material with surface enriched with metal and preparation method and application of molecular sieve material, China, ZL201711145063.6

156) Method for directly preparing p-xylene from synthesis gas and methylbenzene, China, ZL201711133393.3

157) Preparation method DNL-1 molecular sieve, China, ZL201710909199.3

158) ECR - 40 molecular sieve and preparation method thereof, China, ZL201710910484.7

159) Method for high-selectivity preparation of propylene and co-production of gasoline and polymethylbenzene product by using methanol or dimethyl ether, China, ZL201710361894.0

160) In-situ and on-line preparation method of catalyst for preparing P-xylene through toluene methanol alkylation, China, ZL201710289001.6

161) In-situ preparation method of catalyst for preparing low-carbon olefin CO-producing P-xylene, China, ZL201710287735.0

162) Method for producing paraxylene by making low-carbon olefin, China, ZL201710289005.4

163) Method for producing paraxylene by making low-carbon olefin, China, ZL201710287754.3

164) In-situ preparation method for catalyst for preparation of methylbenzene by benzene methanol alkylation and co-production of p-xylene, China, ZL201710289011.X

165) In-situ preparation method of catalyst for CO-production of P-xylene and low-carbon olefin by benzene and methanol, China, ZL201710289012.4

166) Fluidized bed gas distributor Reactor using same and method for producing paraxylene CO-producing low-carbon olefin, China, ZL201710289026.6

167) Apparatus and method to co-produce p-xylene and light olefins by methanol and/or dimethyl ether and toluene, China, ZL201710289046.3

168) Fluidized bed device and method for CO-producing low-carbon olefin by using methanol and/or dimethyl ether and toluene, China, ZL201710288546.5

169) Fluidized-bed gas distributor, reactor employing fluidized-bed gas distributor and method of co-producing p-xylene and light olefins, China, ZL201710288532.3

170) luidized bed device and method for CO-production of low-carbon olefin by methanol and/or dimethyl ether and benzene, China, ZL201710287764.7

171) Method for CO-producing low-carbon olefin by using methanol and/or dimethyl ether and benzene, China, ZL201710287771.7

172) Three-component acetylene hydrochlorination mercury-free catalyst and preparation method thereof, China, ZL201611129114.1

173) Method and device for preparing propylene and C4 hydrocarbons, China, ZL201610910732.3

174) A process and apparatus for preparing propylene and C4 hydrocarbons, China, ZL201610910680.X

175) Method for synthesizing mordenite (MOR) molecular sieve as well as product and application of molecular sieve, China, ZL201611135717.2

176) Turbulent fluidized bed reactor, device and method for preparing propylene and C4 hydrocarbons from oxygen-containing compound, China, ZL201610913355.9

177) Fast fluidized bed reactor, device and method for preparing propylene and C4 hydrocarbons from oxygen-containing compound, China, ZL201610910662.1

178) Mordenite molecular sieve, and preparation method and application thereof, China, ZL201611131144.6

179) Microfluidic chip with gradient microchannel height, and preparation template and method thereof, China, ZL201611114889.1

180) Method for production of high-purity m-cresol, China, ZL201611104113.1

181) Method for preparing unsaturated lower fatty acid ester, China, ZL201611052193.0

182) Catalyst for preparing unsaturated acid or unsaturated acid ester, China, ZL201611054352.0

183) Catalyst for preparing unsaturated acid or unsaturated acid ester, China, ZL201611066878.0

184) Catalyst containing acid-modified molecular sieve with FER configuration and preparation method thereof, China, ZL201611054351.6

185)Catalyst containing metal modified molecular sieve with FER configuration and preparation method of catalyst, China, ZL201611055154.6

186) Catalyst for preparing unsaturated acid or unsaturated acid ester, China, ZL201611056081.2

187) Method for regenerating catalyst for preparing unsaturated acid or unsaturated acid ester, China, ZL201611055483.0

188) Process for the preparation of acrylic acid and/or alkenoic acid esters, China, ZL201611055144.2

189) Preparation method of acrylic acid and methyl acrylate, China, ZL201611061407.0

190) Catalyst for preparing acrylic acid and/or methyl acrylate, China, ZL201611055148.0

191) Catalyst for preparing acrylic acid and methyl acrylate and preparation method thereof, China, ZL201611055139.1

192) Catalyst for preparing acrylic acid and methyl acrylate and preparation method of catalyst, China, ZL201611055147.6

193) Catalyst for preparing acrylic acid and methyl acrylate and preparation method of catalyst, China, ZL201611055134.9

194) Catalyst for preparing acrylic acid and methyl acrylate, China, ZL201611055131.5

195) Regeneration method of catalyst for preparing acrylic acid and/or methyl acrylate, China, ZL201611054340.8

196) Regeneration method of catalyst for preparing acrylic acid and/or methyl acrylate, China, ZL201611054338.0

197) Process for preparing acrylic acid and/or methyl acrylate, China, ZL201611054339.5

198) Catalyst for synthesizing arene and preparation method thereof, China, ZL201610931965.1

199) A process for preparing aromatic hydrocarbons, China, ZL201610985085.2

200) anometer SAPO-34 molecular sieve synthesis method, and SAPO-34 molecular sieve catalyst and applications thereof, China, ZL201610622095.X

201) Method for preparing SAPO molecular sieve containing copper and silver bimetallic and application thereof, China, ZL201610615408.9

202) Preparation method of low-silicon nano SAPO-34 molecular sieve, China, ZL201610370051.2

203) Low-carbon olefin preparation method, China, ZL201610364951.6

204) Novel SAPO (silicoaluminophosphate) molecular sieves and synthesis method thereof, China, ZL201610081120.8

205) Silicoaluminophosphate molecular sieve, preparation method and application thereof, China, ZL201610081448.X

206) Application of silicoaluminophosphate molecular sieve raw powder in separation/for extracting metal ions, China, ZL201610037247.X

207) RHO - SAPO molecular sieve, its synthetic method and use, China, ZL201510967835.9

123) Preparation method of hollow-morphology silicon aluminum phosphate molecular sieve, China, ZL201510967564.7

208) A high temperature resistant capacitance tomography imaging sensor, China, ZL201510967356.7

209) Catalyst for producing methyl acetate by carbonylation of dimethyl ether and application thereof, China, ZL201510964686.0

210) A method for producing methyl acetate catalyst, preparation method and application thereof, China, ZL201510961959.6

211) A method for producing methyl acetate catalyst, preparation method and application thereof, China, ZL201510964654.0

212) Catalyst for producing methyl acetate by carbonylation of dimethyl ether and application thereof, China, ZL201510964623.5

213) Catalyst for producing methyl acetate as well as preparation method and application of catalyst, China, ZL201510964581.5

214) Method for directly co-preparing glycol dimethyl ether and ethylene glycol from ethylene glycol monomethyl ether, China, ZL201510639716.0

215) Method for preparing glycol through hydrolysis of ethylene glycol monomethyl ether, China, ZL201510644148.3

216) High temperature electrical capacitance tomography sensor and production method thereof, China, ZL201510623768.9

217) A preparation of acetic acid through the carbonylation of methanol method, China, ZL201510578383.5

218) Method for preparing acetic acid through isomerization of methyl formate, China, ZL201510579216.2

219) Thecoprecipitation - melt method for preparing iron-based catalyst, preparation method and application thereof, China, ZL201510519016.8

220) Lower aliphatic carboxylic acid alkyl ester production method, China, ZL201510426698.8

221) Methyl acetate production method, China, ZL201510427090.7

222) A process for preparing acetalscarbo- thing method, China, ZL201510426676.1

223) A process for preparing acetalscarbo- thing method, China, ZL201510426807.6

224) A process for preparing acetalscarbo- thing method, China, ZL201510426710.5

225) A single-dispersed oxide microspheres and its micro-fluidic preparation method, China, ZL201510417042.X

226) Sol-gel preparation of the combustion method of the iron-based catalyst, preparation method and application thereof, China, ZL201510390453.4

227) Synthetic method and application of RHO-SAPO molecular sieve, China, ZL201510318894.3

228) RHO-SAPO molecular sieve adopting mesopore and micropore composite porous structure, China, ZL201510316869.1

229) A process for preparing isoprene method, China, ZL201510306715.4

230) Transformation method for naphtha, China, ZL201510296090.8

231) A process for preparing high-silicon aluminum ratio Y-type molecular sieve, product and its use, China, ZL201510196863.5

232) Preparation method and applications of mordenite having mesopores and micropores, China, ZL201510117242.3

233) Themesoporous and microporousmordenite synthetic method, product and its use, China, ZL201510116623.X

234) Preparation method and applications of mordenite having mesopores and micropores, China, ZL201510117253.1

235) SAPO - 17/SAPO - 56 eutectic molecular sieve, its synthetic method and application, China, ZL201510076402.4

236) A process for preparing 1, 4 - dioxane, China, ZL201510069951.9

237) A SAPO molecular sieve of the metal modified preparation method, China, ZL201510051260.6

238) A process for preparing double-seal end glycol ether, China, ZL201410804722.2

239) Catalyst used for preparing double-terminated glycol ether and preparation method thereof, China, ZL201410811147.9

240) A process for preparing double-seal end glycol ether, China, ZL201410812315.6

241) A process for preparing double-seal end glycol ether, China, ZL201410812292.9

242) A process for preparing double-seal end glycol ether, China, ZL201410811249.0

243) In a microporous SAPO - 34 molecular sieve synthesis method, China, ZL201410764548.3

244) Synthetic method for nanometer ZSM-5 molecular sieve, China, ZL201410723189.7

245) Synthetic method for hierarchical-pore ZSM-5 molecular sieve, China, ZL201410723282.8

246) A process for preparing methyl formate, China, ZL201410653201.1

247) A process for preparing methyl formate production method of dimethyl ether, China, ZL201410653121.6

248) Method of improving performance of methylalcarbonylation reaction catalyst, China, ZL201410653100.4

249) Method for preparing methyl formate and co-production of dimethyl ether, China, ZL201410653211.5

250) A process for preparing methyl formate and production method of dimethyl ether, China, ZL201410653147.0

251) Meso-microporous SAPO-34 molecular sieve synthesis method, China, ZL201410606414.9

252) A sheet-like nano SAPO - 34 molecular sieve synthesis method, China, ZL201410557543.3

253) Catalyst for the production of vinyl chloride chloride catalyst and its application method, China, ZL201410528657.5

254) A process for preparing high-silicon aluminum ratio Y type molecular sieve method, China, ZL201410432992.5

255) SAPO-34 molecular sieve with n-butylamine as template agent and synthetic method of SAPO-34 molecular sieve, China, ZL201410422598.3

256) A SAPO-35 molecular sieve and its synthetic method, China, ZL201410406189.4

257) A SAPO-44 molecular sieve and its synthetic method, China, ZL201410411909.6

258) Methanol and/or dimethyl ether production of para-xylene and acrylic method, China, ZL201410245420.6

259) A high-selective production of para-xylene production of propylene, China, ZL201410245028.1

260) Synthesis method of beta molecular sieve, China, ZL201410108995.3

261) Preparation method of beta molecular sieve with composite mesoporous and microporous channels, China, ZL201410109175.6

262) Beta molecular sieve with mesopore-micropore combined pore structure and synthetic method thereof, China, ZL201410108993.4

263) Beta molecular sieve with multistage pore structure and preparation method thereof, China, ZL201410109705.7

264) Beta molecular sieve with multistage pore structure and preparation method thereof, China, ZL201410109151.0

265) Synthetic method of Beta with multistage pore structure, China, ZL201410109562.X

266) Method for synthesizing Beta molecular sieve with composite pore structure, China, ZL201410109550.7

267) Preparation method of Beta molecular sieve with multistage pore structure, China, ZL201410108976.0

268) Method for preparing polyoxymethylene dimethyl ether carboxylate and methyl methoxy acetate, China, ZL201310719363.6

269) Method for preparing polyoxymethylene dimethyl ether carboxylate and methyl methoxy acetate, China, ZL201310724764.0

270) Method for preparing polyoxymethylene dimethyl ether carboxylate and methyl methoxy acetate, China, ZL201310723379.4

271) Method for preparing polyoxymethylene dimethyl ether carboxylate and methyl methoxy acetate, China, ZL201310724763.6

272) Method for production of ethanol and co-production of methanol, China, ZL201310696167.1

273) Method for production of methanol and co-production of C2-C4 alcohols, China, ZL201310694375.8

274) Method for preparing p-xylene and co-producing low-carbon olefin through benzene and methanol or/and dimethyl ether, China, ZL201310690848.7

275) Method for preparing p-xylene and propylene through methanol or/and dimethyl ether, China, ZL201310690645.8

276) Method for preparing paraxylene and propylene, China, ZL201310684321.3

277) Method for combined production of low carbon olefins by preparation of p-xylene from methanol or/and dimethyl ether, China, ZL201310687410.3

278) Method for preparing NaY molecular sieve with high silica-alumina ratio and product thereof, China, ZL201310666539.6

279) Catalyst used for preparing methyl acetate through dimethyl ether carbonylation, preparation method and application thereof, China, ZL201310653359.4

280) Method and equipment for preparing low carbon olefin from oxygenated compounds, China, ZL201310643502.1

281) Reaction device for preparing low-carbon olefin by employing methyl alcohol and/or dimethyl ether, China, ZL201310648651.7

282) Method for preparing low-carbon olefins by using oxygen-containing compounds, China, ZL201310643077.6

283) Method for preparing vinyl chloride and coproducing dichloroethylene and 1, 1, 2-trichloroethane by acetylene-dichloromethane coupled reaction, China, ZL201310618225.9

284) MCM-22 molecular sieve solvothermal synthesis method and product thereof, and uses of MCM-22 molecular sieve, China, ZL201310538868.2

285) ZSM-22 and Me-ZSM-22 molecular sieve synthesis methods, China, ZL 201310353621.3

286)  ZSM-35 molecular sieve and Me-ZSM-35 synthesis methods, China, ZL 201310353589.9

287) Preparation of small crystal grain SAPO molecular sieve method and product and use thereof, China, ZL201310326018.6

288) Method for preparing small granulated SAPO-34 molecular sieve, product prepared through method, and use of product, China, ZL201310326076.9

289)  Method for preparing ZSM-5 zeolite molecular sieve, product and purpose thereof, China, ZL 201310322470.5

290) A method for the production of P-cresol, China, ZL201310240660.2

291)Multi-chamber fluidized bed reactor, China, ZL 201310119439.1

292) Preparation method for 1,3-butadiene, China, ZL 201310027439.9

293) Method used for preparing 1, 4-dioxane from 1, 3-dioxolane, China, ZL201210571126.5

294)   Method for preparing ethanol through low carbon ester hydrogenation, China, ZL 201210570562.0

295)  Catalyst used for producing methyl methoxyacetate, and preparation method thereof, China, ZL 201210571372.0

296) Method used for preparation of methyl aldehyde and co-production of methylal, China, ZL 201210571082.6

297)  Method used for producing methyl acetate, China, ZL 201210571440.3

298) Molecular sieve mercury-free catalyst for acetylene hydrochlorination reaction, and preparation method thereof, China, ZL201210570621.4

299)  Method used for producing methyl acetate, China, ZL 201210571057.8

300)  Method for preparing ethanol through low carbon ester hydrogenation, China, ZL 201210570495.2

301) Method used for preparing methyl acetate via carbonylation of dimethyl ether, China, ZL 201210571346.8

302)  Method used for preparing methyl acetate, China, ZL 201210571084.5

303) Method used for preparing methyl acetate, China, ZL 201210571065.2

304)  Method used for preparing vinyl chloride via hydrochlorination of acetylene in presence of molecular sieve mercury-free catalyst, China, ZL 201210571448.X

305)  Method used for direct production of methyl methoxyacetate via gas-phase carbonylation of methyl aldehyde with methyl alcohol, China, ZL 201210571222.X

306)  Low noble metal mercury-free catalyst for acetylene hydrochlorination reaction, preparation method and application thereof, China, ZL 201210570613.X

307)  SAPO-34 molecular sieve with N-methyldiethanolamine as template, and its synthetic method, China, ZL 201210528985.6

308) SAPO-34 molecular sieve with diisopropanolamine as template, and its synthetic method, China, ZL 201210529321.1

309)  SAPO-35 molecular sieve and synthetic method thereof,China, ZL 201210531580.8

310) SAPO-34 molecular sieve adopting diglycol amine as template agent, and synthesis method thereof, China, ZL 201210535731.7

311) SAPO-34 molecular sieve and synthesis method thereof, China, ZL 201210363991.0
312) Silicoaluminophosphate molecular sieve with CHA (chabasite) structure and synthesis method thereof, China, ZL 201210366773.2

313)  Synthesis method of silicoaluminophosphate (SAPO) molecular sieve with CHA structure and catalyst prepared thereby, China, ZL 201210364716.0

314)  SAPO-44 (silicoaluminophosphate-44) molecular sieve and synthetic method thereof, China, ZL 201210363833.5

315)  Method for quickly synthesizing SAPO(silicoaluminophosphate)-34 molecular sieve and catalyst prepared from molecular sieve, China, ZL 201210364688.2
316) Synthesis method of SAPO-34 molecular sieve and catalyst prepared from SAPO-34 molecular sieve, China, ZL 201210363843.9

317) Preparation method of compound with 1,3-dioxane structure, China, ZL201210342364.9

318)  Preparation method of high-strength binding-agent-free multi-orifice compound MOR (mordenite) catalyst, China, ZL 201210316126.0

319)  Preparation method of high-strength binding-agent-free multi-orifice compound ZSM-5 (Zeolite Socony Mobil-5) catalyst, China, ZL 201210316076.6

320)  Method of producing methylphenol by using molecular sieve as catalyst, China, ZL 201210258341.X

321)  Method of producing methylphenol by gas-phase alkylation of phenol and methanol, China, ZL 201210258314.2

322)  Metal-doped silicoaluminophosphate molecular sieve with RHO skeleton structure and preparation method thereof, China, ZL 201210219915.2

323) Dimethyl ether carbonylation catalyst, and preparation method and application thereof, China, ZL 201210163156.2

324)  Catalyst for preparing paraxylene by mutual transformation of carbinol and / or dimethyl and C4 liquefied gas, preparation method and application thereof, China, ZL 201210126984.9

325)  Catalyst of preparing ethylene and propylene by carbinol and / or dimethyl ether, preparing method and application thereof, China, ZL 201210120985.2

326)  Method for preparing p-cresol from anisole and preparation method of used catalyst thereof, China, ZL 201210043072.5

327) Aluminosilicatemesoporous material and synthesis method thereof, China, ZL201110204917.x

328) Synthesis method of a low silica SAPO-34, China, ZL 201110175530.6

329) Synthesis method of small crystals of SAPO-34, China, ZL 201110175349.5

330)   A propylene production method, China, ZL 201110178238.X

331) Catalyst for use in preparation of methane from synthesis gas and coproduction of petroleum product and preparation and application methods thereof, China, ZL 201010613742.3

332) Catalyst used in preparation of methane and coproduction of polycarbon hydrocarbons by using syngas, and preparation and application methods for catalyst, China, ZL 201010613447.8

333) Catalyst used in preparation of methane and coproduction of low-carbon olefin by conversion of syngas, preparation method for catalyst and application of catalyst, China, ZL 201010613450.x

334) Catalyst applied to producing of methane and co-producing low carbon olefin by converting syngas and preparation and application thereof, China, ZL 201010613796.x

335) Catalyst for use in preparation of methane from synthesis gas and coproduction of low-carbon mixed alcohol and preparation and application methods thereof, China, ZL 201010613781.3

336)  Method for preparing methane from synthesis gas and coproducing low-carbon mixed alcohol, China, ZL 201010613800.2

337) Solvothermal synthesis method of silicoaluminophosphate (SAPO)-34 molecular sieve and catalytic agent prepared by using solvothermal synthesis method, China, ZL 201010610685.3

338) Synthesizing method for RHO-SAPO molecular sieve and catalyst prepared with same, China, ZL 201010610682.x

339)  Cobalt-based catalyst used in preparation of methane and coproduction of oil product by using syngas, and preparation and application methods for cobalt-based catalyst, China, ZL 201010610424.1

340)  Method for promoting transformation of propane for preparing aromatic hydrocarbon, China, ZL 201010610460.8

341) Method for preparing olefin by dehydrogenating low-carbon alkane, China, ZL 201010610690.4

342) Ferrum-based catalyst applied to producing methane and co-producing petroleum products by converting syngas, China, ZL 201010610513.6

343) Iron-based catalyst for process of preparing methane and co-generating petroleum products by synthesis gas, preparation and application of iron-based catalyst,China, ZL 201010610492.8

344) Catalyst applied to producing methane and co-producing petroleum products by utilizing syngas and preparation and application method thereof, China, ZL 201010610435.x

345) Method for catalyzing catalytic cracking reaction of methanol coupled with naphtha using modified ZSM-5 molecular sieve based catalyst, China, ZL 201010607910.8

346) Method for continuously producing glycolic acid, China, ZL 201010607908.0 

347) Preparation method of inorganic phosphatic crystal material, China, ZL 201010255777.4

348) A solid acid-catalyzed methanol dehydration method of continuous production of dimethyl ether, China, ZL 201010123944.X

349) Catalyst for preparing paraxylene by methyl alcohol conversion, preparation method thereof and application, China, ZL 201010108457.6

350) Catalyst for preparing paraxylene and low-carbon olefin by methyl alcohol conversion, preparation method and application thereof, China, ZL 201010110868.9

351) A pre-flow agent for fluidized bed, China, ZL 200910250081.X

352) Synthesis method of SAPO molecular sieve with RHO skeleton structure and its preparation, China, ZL 200910169329.X

353) A molecular sieve catalysts for acetic acid and butene reaction, China, ZL 200910135982.4

354) Propylene production method with ethylene as byproduct, China, ZL 200910157973.5

355) Preparation of SAPO-34, China, ZL 200910077515.0

356) Saturated hydrocarbon to light olefins and aromatics, China, ZL 200910135608.4

357) A dense phase fluidized bed reactor for catalytic production of olefins and aromatics, China, ZL 200810099589.X

358) Preparation method of propylene oxide, China, ZL 200810082026.X

359) A preparation method of propylene oxide, China, ZL 200810082027.4

360) Toluene methylation produce xylene and light olefin, China, ZL 200710179410.7

361) A method for toluene methylation to xylene and light olefins, China, ZL 200710179408.X

362) A highly selective system for xylene co-production with light olefins, China, ZL 200710179409.4

363) Preparation of propane, China, ZL200710177402.9

364) Method for residue oil catalytic cracking to olefins and aromatics in a fluidized bed reactor, China, ZL 200710176928.5

365) Method for preparing propylene with ethylene and methanol (or/and dimethyl ether) as raw material, China, ZL200710176605.6

366) Preparation of propylene, China, ZL200710176604.1

367) A toluene methanol alkylation fluidized bed catalyst for xylene and light olefin production, China, ZL 200710176274.6
368) A moving bed catalyst for toluene methanol alkylation to xylene and light olefins, China, ZL 200710176269.5

369) The catalyst and the preparation method propylene from methanol or dimethyl ether, China, ZL 200710143260.4

370) Method for producing propylene by conversion of carbinol or dimethyl ether, China, ZL200710143259.1

371) Method to produce propylene by methanol or dimethyl ether, China, ZL 200710143261.9

372) Ammonia decomposition to hydrogen catalyst, China, ZL 200710119471.4

373) Fluidized bed catalytic cracking for light olefin production, China, ZL 200710118286.3

374) Reaction performance appraising method of fluidized bed catalyst during preparation of light olefins by methanol, China, ZL200710111149.7

375) Acetic acid and butene direct esterification method, China, ZL 200710098696.6

376) A methanol dehydration reaction method to produce dimethyl ether, China, ZL 200710064235.7

377) Method for producing light olefins by methanol or/and dimethyl ether, China, ZL200710064232.3

378) Fluidized bed catalyst recovery method, China, ZL 200710063693.9

379) An in situ synthesis of oxygenated compounds method, China, ZL200610161072.X

380) SAPO-34 molecular sieve with micropore and mesopore structure and synthetic method thereof, China, ZL 200610161073.4

381) A preservation method of microsphere catalyst for making oxygenated compounds into olefins, China, ZL 200610160683.2

382) A solid acid catalyzed methanol dehydration reaction process to produce dimethyl ether, China, ZL 200610144341.1

383) A microsphere catalyst used for converting oxygen compound to olefin and preparation method thereof, China, ZL200610160682.8

384) Diethylaminetemplated synthesis of SAPO-11 and SAPO-34 molecular sieve, China, ZL 200610144350.0

385) Rapid synthesis of SAPO-34, China, ZL 200610138508.3

386) Method and device for fatty acids catalytic cracking to light olefins, China, ZL200610114033.4

387) An oxygenated compounds into olefins microsphere catalyst and its preparation method, China, ZL 200610152273.3

388) Preparation method of SAPO molecular sieves rich in Si (4Al), China, ZL 200610127870.0

389) The structure of the skeleton-rich Si (4Al) of SAPO-34 and synthesis, China, ZL 200610153083.3

390) Method for recovering reactivation heat in process of preparing low carbon olefinic hydrocarbon with methanol, China, ZL200610112557.X

391) Start-up method for fluidized catalytic methanol to olefin units, China, ZL 200610112558.4

392) An ethylene alkylation process to make propylene, China, ZL 200610112555.0

393) Method for fast measuring carbon content in solid catalyst, China, ZL200610112554.6

394) An inorganic phosphate and its application, China, ZL 200610088951.4

395) A method of vegetable oils and animal fats and oils to olefins, China, ZL 200610089354.3

396)  Online modification method for toluene methylation to xylene catalyst, China, ZL 200610011662.4

397) Catalyst and the use of the methanol to dimethyl ether, China, ZL 200610011664.3

398) Method of preparing ethylene, propylene and aromatic hydrocarbons by catalytic cracking gasoline, China, ZL200510086320.4

399) Catalyst for producing dimethyl ether by methanol liquid-phase or mixed-phase dewatering method, China, ZL 200510012180.6

400) Method for preparing dimethyl ether from methanol, China, ZL 200510088975.5

401) A continuous production of lower alcohol, China, ZL 200510075407.1

402) A continuous production of lower alcohol, China, ZL 200410001113.X

403) A lower carbon olefin directly hydration method to the production alcohol, China, ZL 200410028722.4

404) Method for preparing catalyzer for splitting heavy hydrocarbons into light hydrocarbons, China, ZL 03141148.7

405) A lower carbon olefin continuous production from lower alcohol, China, ZL 200410001112.5

406) Method to inactivate virus by porous solid material adsorption, China, ZL 03133534.9

407)  Hydrocarbon catalytic cracking for production of olefins and aromatics, China, ZL 02152479.3

408) A coupled catalytic cracking of petroleum hydrocarbons for olefin production, China, ZL 02152480.7

Conferences

1.        “Current Status and Future Perspectivesof Clean Energy Technologies in DICP”,The 3rd Research and Development 20 for Clean Energy Technologies (RD20),(Tokyo, Japan2021),Invited lecture

2.        “Research and Development 20 for clean energy technologies (RD20)”,The 2nd Research and Development 20 for Clean Energy Technologies (RD20),(Tokyo, Japan2020),Invited lecture

3.        China’s Energy Revolution: Challenges and Opportunities”,Research and Development 20 for Clean Energy Technologies, RD20,(Tokyo, Japan2019),Invited lecture

4.        Recent progress on fundamental studies of MTO reaction””Coupling of methanol and carbon monoxide over H-ZSM-5 to form aromatics ”ACS Spring National Meeting & Exposition 2019, 257th American Chemical Society National Meeting & Exposition(Orlando, FL, USA2019),Oral presentation

5.        Mechanism understanding of methanol to hydrocaron reaction and its application to processes”(4th Euro Asia Zeolite Congress (4th EAZC),(TaorminaItaly, 2019),Plenary lecture

6.        The 34th GFZ meeting (French Zeolite Association), the 1st international GFZ edition (Cabourg, France) and the 2nd LIA (Zeolite) meeting, (Cean, France, 2018), Chair

7.        Methanol to Olefins (MTO): From fundamental to Commercialization”,2018 AIChE Annual MeetingPittsburgh, PA, USA2018),Invited lecture

8.        Recent Mechanism Understanding on MethanolToOlefin Reaction”,7th FEZA ConferenceSofia, Bulgaria, 2017),Keynote lecture 

9.        “Catalysis and process advances in DMTO technology”, 13th European Congress on Catalysis ( Florence ,Italy,2017)Keynotelecture

10.        “Methanol to olefins: from fundamental to commercialization”, XIII Italian Congress of Zeolites Science and Technology, (Florence,Italy,2017), Keynote lecture

11.         Session“TG002 Breakthroughs in C1 to Chemicals and Processing Engineering”, 2016 AIChE Annual Meeting ( sanfrancisco, US, 2016 ), chair

12.     “Research progress on methanol and its derivatives conversion technology”9th high-end academic seminar on chemical engineering and product engineering cross-strait ( Taiwan,  2016 ), keynote lecture

13.     “Methanol to olefins: recent progresses on fundamental studies”, 16th International congress on catalysis ( Beijing, 2016 ), keynote lecture

14.     "DMTO and Beyond: DICP's Sustainable Innovations in Technologies for on-Purpose Production of Light Olefins from Methanol", AICHE Spring meeting and global congress on process safety ( Houston, US, 2016 ), keynote lecture

15.     “Recent progress on mechanism of methanol to hydrocarbon reaction”, 2nd Euro-Asia Zeolite Conference ( Nice, France, 2015 ), plenary lecture

16.    “Recent progress on fundamental researches of MTO reaction”, International Symposium on Zeolite and Microporous Crystals 2015 ( Sapporo, Japan, 2015 ), keynote lecture

17.    “Methanol to Olefins: from fundamental to commercialization”, The 17th national conference on catalysis ( Hangzhou, 2014 ), plenary lecture

18.     “Methanol to Olefins: State of the Art and Current Challenges”, 3rd Workshop on Zeolites ( Caen, France, 2014 ), plenary lecture

19.     “Methanol to olefin: from fundamental to commercialization”, 7th Tokyo Conference on Advanced Catalytic Science and Technology ( Kyoto, Japan, 2014) , keynote lecture

20.     “Fundamental Research on Methanol to Olefin Reaction”, The Annual Fall Meeting of Korean Institute of Chemical Engineering ( Daejeon, Korea, 2014), keynote lecture

21.    14th National Youth Conference on Catalysis ( Changchun, 2013), plenary lecture

22.     “Methanol-to-Olefins: from fundamental to commercialization”, 17th International Zeolite Conference ( Moscow,  2013), plenary lecture

23.     "Mechanism Research on Methanol to Olefin Reaction", ABC-7,  7th International Symposium on Acid-Base Catalysis,  (Tokyo, 2013), keynote lecture

24.    “Methanol-to-Olefins: from fundamental to commercialization”, 17th national zeolite conference of China ( Yinchuan, 2013), plenary lecture

25.    “Coal to Olefin Industry and Technology Development in China”, 2013 US China Clean Energy Workshop, ( Birmingham, US, 2013), invited lecture

26.     “Methanol-to-Olefins”, 16th national catalysis conference (Shenyang, 2012), keynote lecture

27.     “DNL-6: a novel SAPO molecular sieve and itsgood performance for CO2 separation”, The 6th Pacific Basin Conference on Adsorption Science and Technology (PBAST-6), ( Taiwan, 2012), invited lecture

28.     “Fundamental research on methanol to olefin reaction”, 16th national zeolite conference of China (Beijing, 2011), plenary lecture