发表论文
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Ca(OH)2 induced a controlled-release catalytic system for the efficient conversion of high-concentration glucose to lactic acid. MOLECULAR CATALYSIS[J]. 2021, 502: http://dx.doi.org/10.1016/j.mcat.2021.111406.[5] Lin Chai, Xiaojing Cui, Yongqin Qi, Na Teng, Xianglin Hou, Tiansheng Deng. A new strategy for the efficient exfoliation of graphite into graphene. New Carbon Materials. 2021, 36(6): 1179-1186, [6] Wu, Shaodi, Zhang, Ning, Jia, Shiyu, Wang, Chizhou, Wang, Yingxiong, Qi, Yongqin, Wang, Hongliang, Cui, Xiaojing, Hou, Xianglin, Deng, Tiansheng. Catalytic degradation of melamine-formaldehyde resins into valuable chemicals. GREEN CHEMISTRY[J]. 2021, 23(19): 7816-7824, http://dx.doi.org/10.1039/d1gc02478g.[7] Yingjian SONG, Xiaojing CUI, Tiansheng DENG, Zhangfeng QIN, Weibin FAN. Solvent effect on the activity of Ru-Co3O4 catalyst for liquid-phase hydrogenation of CO2 into methane. Journal of Fuel Chemistry and Technology. 2021, 49(2): 178-185, http://dx.doi.org/10.1016/S1872-5813(21)60013-0.[8] Shao, Xiaojie, Su, Lijuan, Zhang, Jiaojiao, Tian, Zishang, Zhang, Ning, Wang, Yingxiong, Wang, Hongliang, Cui, Xiaojing, Hou, Xianglin, Deng, Tiansheng. Green Production of Phthalic Anhydride from Biobased Furan and Maleic Anhydride by an Acid Resin Catalyst. ACS SUSTAINABLE CHEMISTRY & ENGINEERING[J]. 2021, 9(43): 14385-14394, [9] Cui, Xiaojing, Chen, Shuai, Yang, Huanhuan, Liu, Yequn, Wang, Huifang, Zhang, He, Xue, Yanfeng, Wang, Guofu, Niu, Yulan, Deng, Tiansheng, Fan, Weibin. Improving methanol selectivity in CO2 hydrogenation by tuning the distance of Cu on catalyst. APPLIED CATALYSIS B-ENVIRONMENTAL[J]. 2021, 298: http://dx.doi.org/10.1016/j.apcatb.2021.120590.[10] Yang, Huanhuan, Cui, Xiaojing, Li, Shiying, Gen, Youliang, Deng, Tiansheng, Wang, Jianguo, Olsbye, Unni, Fan, Weibin. Developing a general method for encapsulation of metal oxide nanoparticles in mesoporous silica shell by unraveling its formation mechanism. MICROPOROUS AND MESOPOROUS MATERIALS[J]. 2020, 305: http://dx.doi.org/10.1016/j.micromeso.2020.110381.[11] Chai, Lin, Hou, Xianglin, Cui, Xiaojing, Li, Hongyan, Zhang, Ning, Zhang, Hui, Chen, Chengmeng, Wang, Yingxiong, Deng, Tiansheng. 5-Hydroxymethylfurfural oxidation to Maleic acid by O-2 over graphene oxide supported vanadium: Solvent effects and reaction mechanism. CHEMICAL ENGINEERING JOURNAL[J]. 2020, 388: http://dx.doi.org/10.1016/j.cej.2020.124187.[12] Zhang, Jiaojiao, Zhao, Jie, Cui, Xiaojing, Hou, Xianglin, Su, Lijuan, Wang, Hongliang, Deng, Tiansheng. Nanoparticle cages as microreactors for producing acrolein from glycerol in the liquid phase. 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Efficient and green catalytic degradation of high crosslinked rigid PU foam and recovery value-added products via selective cleavage of C-O and C-N bonds. POLYMER DEGRADATION AND STABILITY[J]. 2020, 181: http://dx.doi.org/10.1016/j.polymdegradstab.2020.109262.[16] Zhang, Hui, Cui, Xiaojing, Wang, Hongliang, Wang, Yuqi, Zhao, Yuhua, Ma, Hui, Chai, Lin, Wang, Yingxiong, Hou, Xianglin, Deng, Tiansheng. Degradation of polycarbonate-based polyurethane via selective cleavage of carbamate and urea bonds. POLYMER DEGRADATION AND STABILITY[J]. 2020, 181: http://dx.doi.org/10.1016/j.polymdegradstab.2020.109342.[17] Wang, Yuqi, Zhang, Yao, Song, Hongyan, Wang, Yingxiong, Deng, Tiansheng, Hou, Xianglin. Zinc-catalyzed ester bond cleavage: Chemical degradation of polyethylene terephthalate. JOURNAL OF CLEANER PRODUCTION[J]. 2019, 208: 1469-1475, http://dx.doi.org/10.1016/j.jclepro.2018.10.117.[18] Zhang, Jiaojiao, Li, Zheng, Cui, Xiaojing, Li, Jinlong, Jia, Shiyu, Wang, Yingxiong, Wang, Hongliang, Hou, Xianglin, Deng, Tiansheng. Mass transfer intensification by microinterface: Efficient dehydration of glycerol into acrolein in a water/oil pickering emulsion system. JOURNAL OF CLEANER PRODUCTION[J]. 2019, 236: http://dx.doi.org/10.1016/j.jclepro.2019.117611.[19] Wang, Yuqi, Song, Hongyan, Ge, Hui, Wang, Junwei, Wang, Yingxiong, Jia, Shiyu, Deng, Tiansheng, Hou, Xianglin. Controllable degradation of polyurethane elastomer via selective cleavage of C-O and C-N bonds. JOURNAL OF CLEANER PRODUCTION[J]. 2018, 176: 873-879, https://www.webofscience.com/wos/woscc/full-record/WOS:000423648000076.[20] Xianglin Hou. The efficient C-C bond formation between two levulinic acid molecules to produce C10 compounds with the cooperation effect of Lewis and Brønsted acids. ACS Sustainable Chem. Eng.. 2018, [21] Li, Zheng, Zhang, Jiaojiao, Nielsen, Michael Martin, Wang, Hongliang, Chen, Chunyan, Xu, Junli, Wang, Yingxiong, Deng, Tiansheng, Hou, Xianglin. Efficient C-C Bond Formation between Two Levulinic Acid Molecules To Produce C-10 Compounds with the Cooperation Effect of Lewis and Bronsted Acids. ACS SUSTAINABLE CHEMISTRY & ENGINEERING[J]. 2018, 6(5): 5708-5711, https://www.webofscience.com/wos/woscc/full-record/WOS:000431927500004.[22] Li, Jinlong, Wang, Yuqi, Lu, Boqiong, Wang, Yingxiong, Deng, Tiansheng, Hou, Xianglin. Protonic acid catalysis of sulfonated carbon material: Tunable and selective conversion of fructose in low-boiling point solvent. APPLIED CATALYSIS A-GENERAL[J]. 2018, 566: 140-145, http://dx.doi.org/10.1016/j.apcata.2018.08.027.[23] Yang, Huanhuan, Chen, Yanyan, Cui, Xiaojing, Wang, Guofu, Cen, Youliang, Deng, Tiansheng, Yan, Wenjun, Gao, Jie, Zhu, Shanhui, Olsbye, Unni, Wang, Jianguo, Fan, Weibin. A Highly Stable Copper-Based Catalyst for Clarifying the Catalytic Roles of Cu-0 and Cu+ Species in Methanol Dehydrogenation. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2018, 57(7): 1836-1840, https://www.webofscience.com/wos/woscc/full-record/WOS:000424212300013.[24] Jia, Lingyu, Zhang, Zhenzhou, Qiao, Yan, Pedersen, Christian Marcus, Ge, Hui, Wei, Zhihong, Deng, Tiansheng, Ren, Jun, Liu, Xingchen, Wang, Yingxiong, Hou, Xianglin. Product Distribution Control for Glucosamine Condensation: Nuclear Magnetic Resonance (NMR) Investigation Substantiated by Density Functional Calculations. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2017, 56(11): 2925-2934, https://www.webofscience.com/wos/woscc/full-record/WOS:000397477800007.[25] Li, Jinlong, Lv, Guangqiang, Lu, Boqiong, Wang, Yingxiong, Deng, Tiansheng, Hou, Xianglin, Yang, Yongxing. Benzoic Acid/TEMPO as a Highly Efficient Metal-Free Catalyst System for Selective Oxidation of 5-hydroxymethylfurfural into 2, 5-diformylfuran. 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Direct synthesis of 2,5-diformylfuran from fructose with graphene oxide as a bifunctional and metal-free catalyst. GREEN CHEMISTRY[J]. 2016, 18(8): 2302-2307, [29] Li, Yueqin, Lv, Guangqiang, Wang, Yuqi, Deng, Tiansheng, Wang, Yingxiong, Hou, Xianglin, Yang, Yongxing. Synthesis of 2,5-Hexanedione from Biomass Resources Using a Highly Efficient Biphasic System. CHEMISTRYSELECT[J]. 2016, 1(6): 1252-1255, https://www.webofscience.com/wos/woscc/full-record/WOS:000395401600022.[30] Tan, Jingjing, Cui, Jinglei, Ding, Guoqiang, Deng, Tiansheng, Zhu, Yulei, Li, Yongwang. Efficient aqueous hydrogenation of levulinic acid to gamma-valerolactone over a highly active and stable ruthenium catalyst. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2016, 6(5): 1469-1475, [31] Cui, Jinglei, Tan, Jingjing, Cui, Xiaojing, Zhu, Yulei, Deng, Tiansheng, Ding, Guoqiang, Li, Yongwang. Conversion of Xylose to Furfuryl Alcohol and 2-Methylfuran in a Continuous Fixed-Bed Reactor. 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Obtaining a high value branched bio-alkane from biomass-derived levulinic acid using RANEY (R) as hydrodeoxygenation catalyst. RSC ADVANCES[J]. 2016, 6(96): 93956-93962, https://www.webofscience.com/wos/woscc/full-record/WOS:000385631900088.[35] Deng, Tiansheng, Lv, Guangqiang, Li, Yueqin, Wang, Yingxiong, Jia, Shiyu, Hou, Xianglin, Yang, Yongxing. Value-Added Utilization of the Lignin-Derived Phenol Monomer and Bioethanol to Synthesize Ethylphenol and Ethyl Phenyl Ether. CATALYSIS SURVEYS FROM ASIA[J]. 2016, 20(2): 91-97, https://www.webofscience.com/wos/woscc/full-record/WOS:000376303500004.[36] Lv, Guangqiang, Chen, Chunyan, Lu, Boqiong, Li, Jinlong, Yang, Yongxing, Chen, Chengmeng, Deng, Tiansheng, Zhu, Yulei, Hou, Xianglin. Vanadium-oxo immobilized onto Schiff base modified graphene oxide for efficient catalytic oxidation of 5-hydroxymethylfurfural and furfural into maleic anhydride. 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