General
Xiangfeng Liu  
Professor   
College of Materials Science and Opto-Electronic Technology
Graduate University of Chinese Academy of Sciences
Email: liuxf@ucas.ac.cn
Telephone: 86-10-8825-6840
Address: 19A Yuquan Road, Beijing, China
Postcode: 100049

Research Areas

(1)  New energy materials including Li-ion battery, sodium-ion battery, metal-air battery, solid state batetry, and hydrogen storage materials.
(2)  Electroctalalysis (HER\CO2RR et ac.).
(3)  Neutron diffraction and Synchrotron radiation techniques and applications.

Main Education and Working Experience

03/2012 -now   Professor,  University of Chinese Academy of Sciences, Beijing, China
07/2011-02/2012 Research Assistant Professor, University of Missouri-St. Louis, USA.
03//2009-06/2011 Postdoctoral associate, University of Missouri-St. Louis,  USA.
01/2008-02/2009 Postdoctoral Fellow, University of New Brunswick,  Canada.
06/2006-12/2007 Postdoctoral Fellow, National Institute of Advanced Industrial Science and Technology (AIST), Japan.
09/2003-06/2006 Ph.D. Material Science, Graduate School of Chinese Academy of Sciences, Beijing, China

Honors & Distinctions

President Prize of Chinese Academy of Sciences, 2006, Beijing, China

Publications

Selected publications

1. Qingyuan Li1, De Ning2,7, Deniz Wong2, Ke An3, Yuxin Tang4, Dong Zhou2, Götz Schuck2, Zhenhua Chen5Nian Zhang6, Xiangfeng Liu1,8*Improving the oxygen redox reversibility of Li-rich battery cathode materials via Coulombic repulsive interactions strategy. Nature Communications 2022, 13, 1123

2. Jicheng Zhang1, Qinghua Zhang2, Deniz Wong3, Nian Zhang4, Guoxi Ren4, Lin Gu2, Christian Schulz3, Lunhua He2,5,6, Yang Yu1 and Xiangfeng Liu1,7*. Addressing voltage decay in Li-rich cathodes by broadening the gap between metallic and anionic bands. Nature Communications 2021, 12:3071

3.  Jicheng Zhang1, Deniz Wong2, Qinghua Zhang3, Nian Zhang4, Christian Schulz2, Maciej Bartkowiak2, Ke An5, Lin Gu3, Zhongbo Hu1, Xiangfeng Liu1,6*. Reducing Co/O Band Overlap through Spin State Modulation for Stabilized High Capability of 4.6V LiCoO2J. Am. Chem. Soc.2023, 145, 18, 10208-10219

4. Ziyi Yang, Fayuan Lai, Qianjiang Mao, Chong Liu, Ruoyu Wang, Tianran Zhang* and Xiangfeng Liu*. Reversing Zincophobic/Hydrophilic Nature of Metal-N-C via Metal-Coordination Interaction for Dendrite-free Zn Anode with High Depth-of-Discharge. Advanced Materials  2024, 2311637

5.  Butian Chen, Jicheng Zhang, Deniz Wong,Tenghui Wang, Taiguang Li, Chong Liu, Limei Sun and Xiangfeng Liu*.Achieving the High Capacity and High Stability of Li-Rich Oxide Cathode in Garnet-Based Solid-State Battery. Angewandte Chemie International Edition2023,e202315856

6.  Chong Liu, Butian Chen, Tianran Zhang*, Jicheng Zhang, Ruoyu Wang, Jian Zheng, Qianjiang Mao, and Xiangfeng Liu*Electron Redistribution Enables Redox-Resistible Li6PS5Cl towards High-Performance All-Solid-State Lithium Batteries. Angewandte Chemie International Edition2023e202302655

7. Zhenrui Li‖, Weijin Kong‖, Yang Yu1, Jicheng Zhang1, Deniz Wong2, Zijian Xu3, Zhenhua Chen3, Christian Schulz2, Maciej Bartkowiak2 and Xiangfeng Liu1,4*. Tuning Bulk O2 and Nonbonding Oxygen State for Reversible Anionic Redox Chemistry in P2-Layered Cathodes. Angewandte Chemie International Edition  2022, 61, e202115552

8. Weijin Kong, Jicheng Zhang, Deniz Wong, Wenyun Yang, Jinbo Yang, Christian Schulz and Xiangfeng Liu*. Tailoring Co3d and O2p band centers to inhibit oxygen escape for stable 4.6V LiCoO2 cathodes. Angewandte Chemie International Edition. 2021, 60, 27102–27112( Hot paper)

9. Yang Yu1,2#, Jicheng Zhang1#, Rui Gao1, Deniz Wong3, Ke An4, Lirong Zheng5, Nian Zhang6, Christian Schulz3, and Xiangfeng Liu1,2*. Triggering Reversible Anion Redox Chemistry in O3-Type Cathode through Tuning Na/Mn Anti-Site Defects. Energy & Environmental Science. 2023, 16,584–597

10. Xiangfeng Liu, Henrietta W. Langmi, Shane D. Beattie, Felix F. Azenwi, G. Sean McGrady, Craig M. Jensen. Ti-Doped LiAlH4for Hydrogen Storage: Synthesis, Catalyst Loading and Cycling Performance.J. Am. Chem. Soc.2011, 133, 15593–15597    


2020


130. Youwei Wang, Junkai Wang, Xiaolin Zhao, Wujie Qiu, Erhong Song, Wenqing Zhang * Xiangfeng Liu* and Jianjun Liu*. Reducing charge overpotential of Li-O2 batteries through band-alignment cathode design. Energy & Environmental Science. 2020,13, 2540-2548.https://doi.org/10.1039/D0EE01551B)

129.  Rui Gaoa+, Dong Zhou+*, De Ning, Wenjing Zhang, Li Huang, Fu Sun, Götz Schuck, Gerhard Schumacher, Zhongbo Hu and Xiangfeng Liu*. Probing the Self-Boosting Catalysis of LiCoO2 in Li-O2 Battery with Multiple In-situ/Operando Techniques. Adv. Funct. Mater. 2020, 2002223

128. Xinghua Dong ,Ran Cheng, Shuang Zhu, Huimin Liu, Ruyi Zhou, Chenyang Zhang, Kui Chen, Linqiang Mei, Chengyan Wang, Chunjian Su, Xiangfeng Liu*, Zhanjun Gu*, and Yuliang Zhao*.  A Heterojunction Structured WO2.9-WSe2 Nanoradiosensitizer Increases Local Tumor Ablation and Checkpoint Blockade Immunotherapy upon Low Radiation Dose.  ACS Nano 2020, 14, 5,  5400–5416.

127. Qingyuan Li1, De Ning2,3, Dong Zhou2, Ke An4, Götz Schuck2, Deniz Wong2, Weijin Kong1, Christian Schulz2, Gerhard Schumacher2 and Xiangfeng Liu1,5*. Tuning Both Anionic and Cationic Redox Chemistry of Li-rich Li1.2Mn0.6Ni0.2O2 via a “Three-in-One” Strategy. Chemistry of Materials 20203221, 9404-9414

126. Junkai Wang1, Deqing Li2, Zhongjun Chen3, Zhonghua Wu3, Bozhen Chen2*, and Xiangfeng Liu1,4*. A p-Phenylenediamine Oligomer-Mediated Li–O2 Battery with an Extremely Low Charge Potential of 3.1 V. Journal of Materials Chemistry A. 2020, 8, 22754 - 22762.

125. Qingyuan Lia, De Ningb, Dong Zhoub, Ke Anc, Deniz Wongb, Lijuan Zhangd, Zhenhua Chend, Götz Schuckb, Christian Schulzb, Zijian Xud, Gerhard Schumacherband Xiangfeng Liua*.The Effect of Oxygen Vacancy and Spinel Phase Integration on Both Anionic and Cationic Redox in Li-rich Cathode Material.Journal of Materials Chemistry A2020,8, 7733-7745HOT Paper

124.Weijin Konga, Wenyun Yangb, De Ningc, Qingyuan Lia, Lirong Zhengd, Jinbo Yangb, Kai Sune, Dongfeng Cheneand Xiangfeng Liua*.Tuning Anionic/Cationic Redox Chemistry in P2-TypeNa0.67Mn0.5Fe0.5O2via a Synergic Strategy.SCIENCE CHINA Materials(Doi: 10.1007/s40843-020-1318-4)

123.Yunsheng Qiua,Rui Gaoa,Wenyun Yangb, Li Huanga, Qianjiang Maoa, Jinbo Yangb, Limei Sunc,Zhongbo Hua, and Xiangfeng Liua*.Understanding the Enhancement Mechanism of A-site Deficient LaxNiO3as An Oxygen Redox Catalyst.Chemistry of Materials2020, 32(5), 1864-1875.

122.Yanwu Zhai,aWenyun Yang,bDe Ningc, Jinbo Yang,bLimei Sun,dGötz Schuckc, Gerhard Schumachercand Xiangfeng Liua*.Improving the Cycling and Air-Storage Stability of LiNi0.8Co0.1Mn0.1O2through an Integrated Surface/Interface/Doping Engineering.Journal of Materials Chemistry A.202085234-5245.

121.Rui Gaoa+, Qizan Chena,c+, Dong Zhoub*, De Ningb, Gerhard Schumacherb,Dmitry Smirnovd, Limei Suneand Xiangfeng Liua*.Oxygen Defects-Engineered LaFeO3-xNanosheets as Efficient Electrocatalysts for Lithium-Oxygen Battery.Journal of Catalysis2020, 384, 199–207.

120. Yang Yuab$, Weijin Kongb$Qingyuan Lib, De Ningc, Götz Schuckc,Gerhard Schumacherc, Chunjian Sua*and Xiangfeng Liub*.Understanding the Multiple Effects of TiO2Coating onNaMn0.33Fe0.33Ni0.33O2Cathode Material for Na-Ion Batteries.ACS Applied Energy Materials.  2020 ,3(1), 933-942.

119. Zhenya Wanga,b, Wenyun Yangc, Jinbo Yangc, Lirong Zhengd, Kai Sune, Dongfeng Chene, Limei Sune*and Xiangfeng Liua,b*. Tuning the Crystal and Electronic Structure of Li4Ti5O12via Mg/La Co-doping for Fast and Stable Lithium Storage.Ceramics International.20204612965–12974

118. Shi Wang1, Qingyuan Li1, Minglei Bai, Jixin He, Chongyang Liu, Zengxi Li, ***, Xiangfeng Liu **, Wen-yong Lai, Liaoyun Zhang*. A dendrite-suppressed flexible polymer-in-ceramic electrolyte membrane for advanced lithium batteries.Electrochimica Acta2020, 353 136604.

117. Qianjiang Maoa,b,Rui Gaoa, Qingyuan Lia,De Ningc, Dong Zhouc, Götz Schuckc,Gerhard Schumacherc,Yongmei Haob,*and Xiangfeng Liua,*.O3-type NaNi0.5Mn0.5O2Hollow Microbars with Exposed {010} Facets as High Performance Cathode Materials for Sodium-Ion Batteries.Chemical Engineering Journal2020, 382 122978

116. Zhenze Cui, Zhenya Wang, Yanwu Zhai, Rui Gao, Zhongbo Hu* and Xiangfeng Liu*.Improving Cycling Stability and Rate Capability of High-Voltage LiCoO2Through an Integration of Lattice Doping and Nanoscale Coating.Journal of Nanoscience and Nanotechnology,2020, 20, 2473-2481.


2019


115.Qingyuan Li, Dong Zhou, Lijuan Zhang, De Ning, Zhenhua Chen, Zijian Xu, Rui Gao, Xinzhi Liu, Donghao Xie, Gerhard Schumacher and Xiangfeng Liu*.Tuning Anionic Redox Activity and Reversibility for High-Capacity Li-rich Mn-based Oxide Cathode via an Integrated Strategy.Adv. Funct. Mater.2019,29, 1806706.

114.Fu Sun,*Rui Gao, Dong Zhou,* Markus Osenberg, Kang Dong, Nikolay Kardjilov,André Hilger,Henning Markötter, Peter Maria Bieker, Xiangfeng Liu*and Ingo Manke. Revealing Hidden Facts of Li Anode in Cycled Lithium Oxygen Batteries through X-ray and Neutron Tomography.ACS Energy Lett.,2019, 4, 306–316.

113.Weijin Konga, Rui Gaoa, Qingyuan Lia, Wenyun Yangb, Jinbo Yangb, Limei Suncand Xiangfeng Liua*.Simultaneously tuning cationic andanionic redox in P2-Na0.67Mn0.75Ni0.25O2cathode materialthrougha synergicCu/Mgco-doping.J. Mater. Chem. A,2019, 7, 9099–9109.

112.Yue Zheng‖, Rui Gao‖, Lirong Zheng, Limei Sun, Zhongbo Hu, Xiangfeng Liu*.Ultrathin Co3O4Nanosheets withEdge-Enriched {111} Planeas Efficient Catalysts for Lithium-Oxygen Batteries.ACS Catal.,2019,9, 3773–3782.

111.Jicheng Zhang‖a, Dong Zhou‖b, Wenyun Yangc, Jinbo Yangc, Limei Sund, Gerhard Schumacherb, and Xiangfeng Liua*. Probing the Nature of Li+/Ni2+Disorder on the Structure and Electrochemical Performance in Ni-Based Layered Oxide Cathodes.Journal of The Electrochemical Society.2019, 166 (16) A4097-A4105

110.Rui Gaoa†, Qi Huanga†, Zijian Zenga, Lirong Zhengb, Yue Zhenga, Zhongbo Huaand Xiangfeng Liu *a.GeneralWater-InducedSelf-ExfoliationStrategyfor the Ultrafastand Large-Scale Synthesis ofMetalHydroxideNanosheets.The Journal of Physical Chemistry Letters2019, 10, 21, 6695−6700.

109.Weijin Kongab, Huibo Wangb, Limei Sunc, Chunjian Sua*and Xiangfeng Liub*.Understanding the Synergic Roles of MgO Coating on the Cycling and Rate Performance of Na0.67Mn0.5Fe0.5O2Cathode.Applied Surface Science497 (2019) 143814.

108.Fu Sun*, Xin He, Xiaoyu Jiang, Markus Osenberg, Jie Li*, Dong Zhou, Kang Dong, André Hilger, Xiaoming Zhu, Rui Gao, Xiangfeng Liu, Kai Huang, De Ning, Henning Markötter, Li Zhang, Fabian Wilde, Yuliang Cao*,Martin Winter,IngoManke.Advancing Knowledge of Electrochemically Generated Lithium Microstructure and Performance Decay of Lithium Ion Battery by Synchrotron X-ray Tomography.Materials Today2019,27,21-32.

107.Qianjiang Mao,a,b,1Cheng Zhang,b,1Wenyun Yang,cJinbo Yang,cLimei Sun,dYongmei Hao,b,*Xiangfeng Liua,*. Mitigating the voltage fading and lattice cell variations of O3-NaNi0.2Fe0.35Mn0.45O2for high performance Na-ion battery cathode by Zn doping.Journal of Alloys and Compounds2019, 794, 509-517.

106. Yanwu Zhaia‖, Jicheng Zhanga‖, Heng Zhanga, Xinzhi Liub, Chin-Wei Wangc, Limei Sund, and Xiangfeng Liua*. The Synergic Effects of Zr Doping and Li2TiO3Coating on the Crystal Structure and Electrochemical Performances of Li-rich Li1.2Ni0.2Mn0.6O2.Journal of The Electrochemical Society.2019,166(8) A1323-A1329 .

105.Rui Gaoa†, Zhaoru Shanga†, Lirong Zhengb, Junkai Wanga, Limei Sunc*, Zhongbo Hua, and Xiangfeng Liua*.Enhancing the Catalytic Activity of Co3O4Nanosheets for Li-O2Batteries by the Incorporation of Oxygen Vacancy with Hydrazine Hydrate Reduction.Inorg. Chem.,2019,58(8), 4989–4996.

104.1王俊凯1胡中波1刘向峰1*.-空气电池正极催化剂表界面调控及构效关系研究进展.电化学2019, 25 (01): 77-88.

103.Zhenya Wanga, Limei Sunb*, Wenyun Yangc, Jinbo Yangc, Kai Sunb, Dongfeng Chenb, Xiangfeng Liua **. Unveiling the synergic roles of Mg/Zr co-doping on rate capability and cycling stability of Li4Ti5O12.Journal of The Electrochemical Society.2019, 166, 4,A658-A666.

102. Hu Zhaoa, Yanchao Shib, Li Xuec, Yingzhi Chengc, Zhongbo Hua*, andXiangfeng Liua*. Understanding the roles of Ti on the structure and electrochemical performances of Li2Ru1-xTixO3cathode materials for Li-ion batteries.Journal of Energy Chemistry2019, 33, 9-16.

101.Shi Wanga, Jingyu Lib, Qingyuan Li, Jie Chena, Xu Liua, Zhinan Wanga, Qinghui Zenga,Tong Zhaob*, Xiangfeng Liuc*,Liaoyun Zhanga*.Topological polymer electrolyte containing poly(pinacolvinylboronate)segments composited with ceramic nanowires towards ambient-temperaturesuperior performance all-solid-state lithium batteries.Journal of Power Sources2019, 413, 318326.

100. Limei Suna1,Zhongxiao Liua1, Zhenya Wangb, Wenyun Yangc, Jinbo Yangc, Kai Suna, Dongfeng Chena, Yuntao Liua*, Xiangfeng Liub**.The synergic effects of Ca and Sm co-doping on the crystal structure and electrochemical performances of Li4-xCaxTi5-xSmxO12anode material.Solid State Sciences.2019, 87, 110-117.


2018

99. Rui Gaoa, Zhenzhong Yangb, Lirong Zhengc, Lin Gub, Lei Liua, Yulin Leed, Zhongbo Hu and Xiangfeng Liua*.Enhancing the Catalytic ActivityofCo3O4for Li-O2Battery through theSynergyof Surface/Interface/Doping Engineering.ACS Catal.,2018,8, 1955–1963.

98.Ling Liab$, Huibo Wanga$, Wenze Hanc, Hao Guoc, Andreas Hoserd, Yujun Chaib*and Xiangfeng Liua*.UnderstandingOxygen Redox in Cu-dopedP2-Na0.67Mn0.8Fe0.1Co0.1O2Cathode MaterialsforNa-Ion Batteries.Journal of The Electrochemical Society.2018, 165 (16) A3854-A3861.

97.Junkai Wanga, Rui Gaoa, Lirong Zhengb, Zhongjun Chenb, Zhonghua Wub, Limei Sunc* , Zhongbo Huaand Xiangfeng Liua*.CoO/CoP Heterostructured Nanosheets with an O-P Interpenetrated Interface as a Bifunctional Electrocatalyst for Na-O2Battery.ACS Catal.2018, 8, 89538960.

96.Weijin Kongab$, Huibo Wanga$, Yanwu Zhaia, Limei Sunc*and Xiangfeng Liua*.Enhancing the Rate Capability and Cycling Stabilityof Na0.67Mn0.7Fe0.2Co0.1O2through a Synergy of Zr4+Doping and ZrO2Coating.J. Phys. Chem. C,2018, 122 (45), 25909–25916.

95.Li Song, Xinghua Dong, Shuang Zhu, Chunfang Zhang, Wenyan Yin, Xiao Zhang, Xiangfeng Liu,* and Zhanjun Gu*.Bi2S3-Tween 20 Nanodots Loading PI3K Inhibitor,LY294002, for Mild Photothermal Therapy of LoVoCells In Vitro and In Vivo.Adv. Healthcare Mater.2018, 1800830.

94. Li Xue, Zhipeng Lü, Yingzhi Cheng,* Xiuyu Sun, Hongtao Lin,Xiaoling Xiao,Xiangfeng Liuand Shuping Zhuo*.Three-dimensional layered double hydroxide membranes: fabrication technique, growth mechanism, and enhanced photocatalytic activity.Chem. Commun.2018,54, 8494-8497.

93.Shi Wang, Ailian Wang, Chengkai Yang, Rui Gao, Xu Liu, Jie Chen, Zhinan Wang, Qinghui Zeng, Xiangfeng Liu, Henghui Zhou,*Liaoyun Zhang.*Six-arm star polymer based on discotic liquid crystal as high performance all-solid-state polymer electrolyte for lithium-ion batteries.Journal of Power Sources2018, 395, 137–147.

92.Huibo Wangab$, Zheng-Yao Lib$, Wenyun Yangc, Jinbo Yangc, Dongfeng Chend, Chunjian Sua*and Xiangfeng Liub*.Structure Modulation and Performance Optimization of P2-Na0.7Mn0.75Fe0.25-x-yNixCoyO2through a Synergistic Substitution of Ni and Co for Fe.Electrochimica Acta.2018,277,88-99.

91.Huibo Wangab$, Rui Gaoa, Zhengyao Lia, Limei Sun*c, Zhongbo Hua, and Xiangfeng Liua*.Different Effects of Al Substitution for Mn or Fe on the Structure and Electrochemical Properties of Na0.67Mn0.5Fe0.5O2as a Sodium-Ion Battery Cathode Material.Inorganic Chemistry.2018, 57 (9), pp 5249–5257

90.Cheng Zhang, Rui Gao, Lirong Zheng, Yongmei Hao* and Xiangfeng Liu*,New Insights into the Roles of Mg in Improving the Rate Capability and Cycling Stability of O3-NaMn0.48Ni0.2Fe0.3Mg0.02O2for Sodium-ion Batteries.ACS Applied Materials & Interfaces.2018,10, 10819–10827.

89. Zheng-Yao Lia,Huibo Wangb,Wenyun Yangc, Jinbo Yangc,Dongfeng Chena, Kai Suna, Xiangfeng Liub*, Songbai Hana*.Improving the Performance of Layered Oxide Cathode Materials with Football-Like Hierarchical Structure for Na-Ion Batteries by Incorporating Mg2+into Vacancies in Na-ion Layers.ChemSusChem2018, 11,1223 –1231(VIP)

88.Xinghua Dong, Wenyan Yin*, Xiao Zhang, Shuang Zhu, Xiao He, Jie Yu, Jiani Xie, Zhao Guo, Liang Yan, Xiangfeng Liu, Qing Wang, Zhanjun Gu*and Yuliang Zhao*.Intelligent MoS2Nanotheranostic for Targeted and Enzyme/pH/NIR-Responsive Drug Delivery to Overcome Cancer Chemotherapy Resistance Guided by PET Imaging.ACS Applied Materials & Interfaces.2018, 10 (4), 4271–4284.

87.Yang Bu, Guixian Zhu, Shengliang Li, Ruogu Qi, Gauri Bhave, Dechen Zhang,Ruixuan Han, Dali Sun, Xiangfeng Liu, Zhongbo Hu, and Xuewu Liu*.Silver Nanoparticles Embedded Porous Silicon Disks enabled SERS Signal Amplification for Selective Glutathione Detection.ACS Applied Nano Materials.2018, 1 (1), 410–417.

86.Zheng-Yao Lia,, Huibo Wangb, Wenyun Yangc, Jinbo Yangc, Lirong Zhengd, Dongfeng Chena, Kai Suna, Songbai Hana*, Xiangfeng Liub*Modulating the Electrochemical Performances of Layered Cathode Materials for Sodium-Ion Batteries through Tuning Coulombic Repulsion between Negatively Charged TMO2Slabs.ACS Appl. Mater. Interfaces.2018, 10 (2), 1707–1718.

85. Yi Liua, De Ningb, Lirong Zhengc, Qinghua Zhangd, Lin Gud,Rui Gaoa, Jicheng Zhanga, Alexandra Franzb, Gerhard Schumacherb, and Xiangfeng Liua*.Improving the Electrochemical Performances of Li-rich Li1.20Ni0.13Co0.13Mn0.54O2through a Cooperative Doping of Na+and PO43-with Na3PO4.Journal of Power Sources2018, 375, 1–10.

84.Yanyan Cui,a,bChunfang Zhang,bLi Song,bJian Yang,aZhongbo Hu,*bXiangfeng Liu*.Facile Synthesis of Near-Infrared emissive CdS Quantum Dots for Live Cells Imaging.J. Nanosci. Nanotechnol.2018, 1842271-2277.

2017

83. Rui Gao, Xiu Liang, Penggang Yin, Junkai Wang, Yu Lin Lee, Zhongbo Hu, Xiangfeng Liu*.An Amorphous LiO2-Based Li-O2Batterywith Low Overpotential and High Rate Capability.Nano Energy2017,41, 535–542.

82.Junkai Wang, Rui Gao, Dong Zhou, Zhongjun Chen, Zhonghua Wu, Gerhard Schumacher, Zhongbo Hu and Xiangfeng Liu*.Boosting the Electrocatalytic Activity of Co3O4Nanosheets for a Li-O2Battery through Modulating Inner Oxygen Vacancy and Exterior Co3+/Co2+Ratio.ACS Catal.,2017,7,6533–6541.

81. Jicheng Zhanga, Zhenzhong Yangb, Rui Gaoa, Lin Gub*,Zhongbo Huaand Xiangfeng Liua*.Suppressing the Structure Deterioration of Ni-rich LiNi0.8Co0.1Mn0.1O2through Atom-scale Interfacial Integration of Self-forming Hierarchical Spinel Layer with Ni Gradient Concentration.ACS Appl. Mater. Interfaces,2017,9, 29794–29803.

80. Yuan Yong, Chunfang Zhang, Zhanjun Gu*, Jiangfeng Du, Zhao Guo, Xinghua Dong, Jiani Xie,Guangjin Zhang*, Xiangfeng Liu*, Yuliang Zhao*.Polyoxometalate-Based Radiosensitization Platform for Treating Hypoxic Tumors byAttenuating Radioresistance and Enhancing Radiation Response.ACS Nano2017, 11 (7),7164–7176.

79. Ailian Wang, Hao Xu, Qian Zhou, Xu LiuZhengyao LiRui GaoXiangfeng Liu*Liaoyun Zhang*. Electrochemical performances of a new solid composite polymer electrolyte based on hyperbranched star polymer and ionic liquid for lithium-ion batteries.J Solid State Electrochem.2017, 21, 2355–2364

78.翟彦武,张继成,赵虎,胡中波,刘向峰.锂离子电池三元层状氧化物正极材料的研究进展.工程研究——跨学科视野中的工程. 2017,9(6):523-537.

77Ying-zhi Cheng, Xiu-Yu Sun, Xiaoling Xiao, Xiangfeng Liu, Li Xue, Zhongbo Hu.Effects of doping Fe cations on crystal structure and thermal expansion property of Yb2Mo3O12.Chinese Chemical Letters,2017, 28,1600-1606.

76Rui Gao,a, cYao Zhou,b, cXiangfeng Liu,*aand Jiacheng Wang*.N-Doped Defective Carbon Layer Encapsulated W2C as aMultifunctional CathodeCatalyst for High Performance Li-O2Battery.Electrochimica Acta2017,245, 430-437.

75.Ailian Wang, Hao Xu, Xu Liu,Rui Gao,Shi Gao,Qian Zhou,Jie Chen,Xiangfeng Liu and Liaoyun Zhang*.The Synthesis of Hyperbranched Star Polymeric Ionic Liquid and Its Application in Polymer Electrolyte.Polym. Chem.,2017,8, 3177-3185. 

74.Zhengyao Li, Rui Gao,Limei Sun,Zhongbo Hu and Xiangfeng Liu*.Zr-doped P2-Na0.75Mn0.55Ni0.25Co0.05Fe0.10Zr0.05O2as high-rate performance cathode material for sodium ion batteries.Electrochimica Acta2017,223, 92-99.

73.Limei Suna, Songbai Hana, Yuntao Liua, Dongfeng Chena*, Zhongbo Hub, Xiangfeng Liub*. Facile Synthesis and Enhanced Electrochemical Performances of Hierarchical ZnFe2O4-graphene Hybrid as An Anode Material for Li-ion Batteries.J. Nanosci. Nanotechnol.2017,17, 2093-2097.

72. Hu Zhao, Lei Liu, Xiuling Zhang, Rui Gao, Zhongbo Hu and Xiangfeng Liu*.Facile Synthesis of Carbon-Coated LiVO3with Enhanced Electrochemical Performances As Cathode Materials for Lithium-ion Batteries.Ceramics International2017, 432343–2349.

2016

71. Rui Gao, Zhengyao Li, Xiuling Zhang, Jicheng Zhang, Zhongbo Hu and Xiangfeng Liu*.Carbon-Dotted Defective CoO with Oxygen Vacancies: A Synergetic Design of Bifunctional Cathode Catalyst for Li-O2Batteries.ACS Catal., 2016,6, 400–406.

70.Jicheng Zhang, Rui Gao, Limei Sun, Zhengyao Li, Heng Zhang, Zhongbo Hu* andXiangfeng Liu*.Understanding the effect of an in situ generated and integrated spinel phase on a layered Li-rich cathode material using a non-stoichiometric strategy.Physical Chemistry Chemical Physics2016,18, 25711-25720.

69. Zheng-Yao Li, Rui Gao, Jicheng Zhang, Xiuling Zhang, Zhongbo Hu and Xiangfeng Liu*. New Insights Into Designing High-rate Performance Cathode Materials for Sodium Ion Batteries by Enlarging Slab-spacing of Na-ion Diffusion Layer.Journal of Materials Chemistry A,2016,4, 3453 – 3461.

68.Jicheng Zhang, Heng Zhang, Rui Gao, Zhengyao Li, Zhongbo Hu, and Xiangfeng Liu*.New insights into the modification mechanism of Li-richLi1.2Mn0.6Ni0.2O2coated by Li2ZrO3.Physical Chemistry Chemical Physics.2016,18, 13322-13331.

67. Chunfang Zhang, Yuan Yong, Li Song, Xinghua Dong, Xiao Zhang, Xiangfeng Liu*, Zhanjun Gu*, Yuliang Zhao*, Zhongbo Hu.Multifunctional WS2@Polyetherimide Nanoplatforms for Imaging Guided Gene-Photothermal Synergistic Therapy of Cancer.Advanced Healthcare Materials2016, 5, 2776 – 2787.

66. Zheng-Yao Li, Jicheng Zhang, Rui Gao, Heng Zhang, Zhongbo Hu and Xiangfeng Liu*.Unveiling the Role of Co in Improving the High-rate Capability and Cycling Performance of Layered Na0.7Mn0.7Ni0.3-xCoxO2Cathode Materials for Sodium Ion Batteries.ACS Appl. Mater. Interfaces,2016,8, 15439–15448.

65.Xiuling Zhang, Rui Gao, Zhengyao Li, Zhongbo Hu, Hongyang Liu* and Xiangfeng Liu*.Enhancing the Performance of CoO as Cathode Catalyst for Li-O2 Batteries through Confinement into Bimodal Mesoporous CarbonElectrochimica Acta2016, 201, 134-141.

64.Zheng-Yao Li, Jicheng Zhang, Rui Gao, Heng Zhang, Lirong Zheng, Zhongbo Hu and Xiangfeng Liu*.Li-Substituted Co-Free Layered P2/O3 Biphasic Na0.67Mn0.55Ni0.25Ti0.2–xLixO2as High-Rate-Capability Cathode Materials for Sodium Ion Batteries.J. Phys. Chem. C2016,120, 9007–9016.

63.Jicheng Zhang, Rui Gao, Limei Sun, Heng Zhang, Zhongbo Hu,Xiangfeng Liu*.Unraveling the multiple effects of Li2ZrO3coating on the structural and electrochemical performances of LiCoO2as high-voltage cathode materials.Electrochimica Acta2016,209,102-110.

62.Li Song, Yanyan Cui, Chunfang Zhang, Zhongbo Hu, Xiangfeng Liu*.Microwave-Assisted Facile Synthesis of Yellow Fluorescent Carbon Dots from o-Phenylenediamine for Cell Imaging and Highly Sensitive Detection of Fe3+and H2O2.RSC Advances2016, 6,17704-17712.

61. Lei Liu, Rui Gao, Limei Sun*, Songbai Han, Dongfeng Chen, Zhongbo Hu, Xiangfeng Liu*.Ultrahigh Cycling Stability and Rate Capability of ZnFe2O4@Graphene Hybrid Anode Prepared through a Facile Syn-graphenization Strategy.New J. Chem.2016,40, 3139 – 3146.

60.Hu Zhao, Lei Liu, Zhongbo Hu, Limei Sun*, Songbai Han, Yuntao Liu, Dongfeng Chen, Xiangfeng Liu*. Neutron diffraction analysis and electrochemical performance of spinel Ni(Mn2-xCox)O4anode materials for lithium ion battery.Materials Research Bulletin.2016, 77,265-270.

59.Chunfang Zhang, Yanyan Cui, Li Song, Xiangfeng Liu* and Zhongbo Hu*. Microwave assisted one-pot synthesis of graphene quantum dots as highly sensitive fluorescent probes for detection of iron ions and pH value.Talanta, 2016, 150, 54–60.

2015

58.Jicheng Zhang, Zhengyao Li, Rui Gao, Zhongbo Hu, and Xiangfeng Liu*. High Rate Capability andExcellentThermal Stability of Li+-Conductive Li2ZrO3-CoatedLiNi1/3Co1/3Mn1/3O2Cathode via a Synchronous Lithiation Strategy.J. Phys. Chem. C2015, 119, 20350−20356.

57. Rui Gao, Lei Liu, Zhongbo Hu, Peng Zhang, Xingzhong Cao, Baoyi Wang, Xiangfeng Liu*. The Role of Oxygen Vacancies in Improving the Performance of CoO as a Bifunctional Cathode Catalyst for Rechargeable Li-O2Batteries.J. Mater. Chem. A, 2015, 3, 17598–17605.
56. Zheng-Yao Li, Rui Gao, Limei Sun, Zhongbo Hu and Xiangfeng Liu*. Designing an advanced P2-Na0.67Mn0.65Ni0.2Co0.15O2 layered cathode material for Na-ion batteries.J. Mater. Chem. A,2015,3, 16272-16278.
55. Xiaopeng Zheng, Junxin Shi, Yang Bu, Gan Tian, Xiao Zhang, Wenyan Yin, Bifen Gao, Zhi-Yong Yang, Zhongbo Hu, Xiangfeng Liu, Liang YAN*, Zhanjun Gu* and Yuliang Zhao*. Silica-coated bismuth sulfide nanorods as multimodal contrast agents for non-invasive visualization of gastrointestinal tract.Nanoscale, 2015,7, 12581-12591.
54. Enyue Zhao, Xiangfeng Liu Zhongbo Hu, Limei Sun, Xiaoling Xiao*, Facile synthesis and enhanced electrochemical performances of Li2TiO3-coated Li-rich layered Li1.13Ni0.30Mn0.57O2 cathode materials for lithium-ion batteries,Journal of Power Sources, 2015,294,141-149.
53.
刘 景,冯建涛,崔岩岩,胡中波,韩 东*,刘向峰*.弹性微柱阵列基底影响肿瘤细胞黏附状态及相关生物力药理学研究[J].电子显微学报, 2015, 34(4),332-337.
52.Chunfang Zhang, Zhongbo Hu, Li Song, Yanyan Cui*, and Xiangfeng Liu*. Valine-derived carbon dots with colour-tunable fluorescence for the detection of Hg2+ with high sensitivity and selectivity.New J. Chem.,2015,39, 6201-6206.
51. Hongbin Feng, Zhongbo Hu, and Xiangfeng Liu*. Facile and efficient exfoliation of inorganic layered materials using liquid alkali metal alloys.Chem. Commun.2015,51, 10961-10964.
50. Yanyan Cui, Chunfang Zhang, Limei Sun, Zhongbo Hu*,and Xiangfeng Liu*. Simple and Efficient Synthesis of Strongly Green Fluorescent Carbon Dots with Upconversion Property for Direct Cell Imaging.Part. Part. Syst. Charact.2015, 32, 542-546.
49. Enyue Zhao, Xiangfeng Liu, Hu Zhao, Xiaoling Xiao* and Zhongbo Hu,*Ionic Conductivity Li2SiO3 Coating Lithium-rich Layered Oxides Exhibiting High Rate Capability and Low Polarization,Chem. Commun.,2015, 51, 9093-9096.
48. Xiuling Zhang, Zhongbo Hu, Xiaoling Xiao, Limei Sun , Songbai Han, Dongfeng Chen*, Xiangfeng Liu*. Fe3O4@porous carbon hybrid as anode materials for lithium-ion battery: Performances optimization by composition and microstructure tailoring.New Journal of Chemistry,2015, 39, 3435- 3443.
47. Lei Liu, Zhongbo Hu, Limei Sun, Rui Gao, and Xiangfeng Liu*. Controlled Synthesis and Enhanced Electrochemical Performances of Prussian Blue Analogue-derived Hollow FeCo2O4Nanospheres as Lithium-ion Battery Anodes.RSC Adv.,2015, 5, 36575-36581
46. Zhongxiao Liu, Limei Sun, Wenyun Yang, Jinbo Yang, Songbai Han, Dongfeng Chen, Yuntao Liu*, Xiangfeng Liu*. The synergic effects of Na and K co-doping on the crystal structure and electrochemical properties of Li4Ti5O12as anode material for lithium ion battery.Solid State Sciences.2015, 44, 39-44.
45. Enyue Zhao, Zhongbo Hu, Lei Xie, Xiping Chen, Xiaoling Xiao* and Xiangfeng Liu*, The studying of the structure-activity relationship of electrochemical performance and Li/Ni mixing of lithium-rich materials by neutron diffraction,RSC Adv.,2015,5, 31238-31244
44. Rui Gao, Jinzhen Zhu, Xiaoling Xiao, Zhongbo Hu, Jianjun Liu*, Xiangfeng Liu*. Facet-Dependent Electrocatalytic Performance of Co3O4for Rechargeable Li-O2Battery.J. Phys. Chem. C2015, 119, 4516-4523.
43. Yanyan Cui, Chunfang Zhang, Limei Sun, Zhongbo Hu*, and Xiangfeng Liu*. Direct Synthesis of CdS Nanodots Embedded in Bovine Serum Albumin without External Sulfur Source for Cell Imaging.RSC Advances,2015, 5, 10014-10017.
42. Hu Zhao, Lei Liu, Xiaoling Xiao, Zhongbo Hu, Songbai Han, Yuntao Liu, Dongfeng Chen, Xiangfeng Liu*. The effects of Co doping on the crystal structure and electrochemical performance of Mg(Mn2-xCox)O4negative materials for lithium ion battery.Solid State Sciences.2015,39, 23-28.

2014

41.Xiangfeng Liu*, David Peaslee, T. Patrick Sheehan, and Eric H. Majzoub*. Decomposition Behavior of Eutectic LiBH4-Mg(BH4)2and Its Confinement Effects in Ordered Nanoporous Carbon.J. Phys. Chem. C.2014, 118, 27265-27271
40. Hu Zhao, Zhongbo Hu, Xiaoling Xiao, XiangfengLiu*. Hydrothermal Synthesis and Electrochemical Performance of LiNi0.5Mn0.5O2as Lithium-ion Battery Cathode.Applied Mechanics and Materials.2014, 672-674, 638-645.
39. Limei Sun, Songbai Han, Yuntao Liu, Dongfeng Chen, Xiangfeng Liu*. The Crystal Structure and Magnetic Property of Bi-Substituted Nd2Fe17-x-yTixSiyIntermetallic Compounds.Applied Mechanics and Materials.2014, 644-650, 4950-4955.
38. Limei Sun, Songbai Han, Yuntao Liu, Dongfeng Chen, Zhongbo Hu, Xiangfeng Liu*. Influence of Y and Al co-doping on the crystal structure and magnetic properties of Nd2-xYxFe17-yAly.Intermetallics,2014, 55, 199-203.
37. Yanyan Cui, Zhongbo Hu, Chunfang Zhang and Xiangfeng Liu*. Simultaneously enhancing up-conversion fluorescence and red-shifting down-conversion luminescence of carbon dots by a simple hydrothermal process.J. Mater. Chem. B,2014, 2, 6947-6952
36. Lei Liu, Limei Sun, Jing Liu, Xiaoling Xiao, Zhongbo Hu, Xingzhong Cao, Baoyi Wang, Xiangfeng Liu*. Enhancing the electrochemical properties of NiFe2O4anode for lithium ion battery through a simple hydrogenation modification.International Journal of Hydrogen Energy.2014,
39,11258-11266.
35. Stephen D. House, Xiangfeng Liu, Angus A. Rockett, Eric H. Majzoub, and Ian M. Robertson. Characterization of the Dehydrogenation Process of LiBH4Confined in Nanoporous Carbon.J. Phys. Chem. C 2014,118, 8843-8851.
34. Li Xue, Yingzhi Cheng*, Xiuyu Sun, Ziyan Zhou, Xiaoling Xiao, Zhongbo Hu and Xiangfeng Liu*. The formation mechanism and photocatalytic activity of hierarchical NiAl–LDH films on an Al substrate prepared under acidic conditions.Chem. Commun.,2014, 50, 2301.

2013

33. Shuai Hao,Xiaoling Xiao, Zhongbo Hu, Limei Sun, Songbai Han, Dongfeng Chen*, and Xiangfeng Liu*. Improving the Electrochemical Performance of Li4Ti5O12 Anode through Confinement into Ordered Bimodal Porous Carbon Frameworks.J. Phys. Chem. C,2013, 117,26889-26895.
32. Nina Verdal*, Terrence J. Udovic, John J. Rush, Xiangfeng Liu, Eric H. Majzoub, John J. Vajo, and Adam F. Gross. Dynamical Perturbations of Tetrahydroborate Anions in LiBH4 due to Nanoconfinement in Controlled-pore Carbon Scaffolds.J. Phys. Chem. C2013, 117, 17983-17995.
31. Xiangfeng Liu*, E. H. Majzoub*, V. Stavila, R. K. Bhakta, M.D. Allendorf, D.T .Shane, M. S Conradi, N. Verdal, T. J. Udovic, S. J. Hwang. Probing the Unusual Anion Mobility of LiBH4 Confined in Highly Ordered Nanoporous Carbon Frameworks via Solid State NMR and Quasielastic Neutron Scattering.J. Mater. Chem. A,2013, 1, 9935-9941
30. Xiangfeng Liu*, David Peasleea and E. H. Majzoub*. Tailoring the hydrogen storage properties of Li4BN3H10 by confinement into highly ordered nanoporous carbon.J. Mater. Chem. A,2013, 1, 3926–3931
29. Ying Zhi Cheng, Xiao Ling Xiao*, Xiang Feng Liu, Mei Mei Wu, Jie Peng, Zhong Bo Hu*, Study of the Structures and Thermal Expansion Properties of Solid Solutions Yb2-xDyxW3O12 (0≤x≤1.5 and 1.8≤x≤2.0),Physica B2013, 411:173-177.

2012
28. Xiaoling Xiao*, Xiangfeng Liu, Hu Zhao, Dongfeng Chen, Fengzhen Liu, Junhui Xiang, Zhongbo Hu, and Yadong Li*. Facile Shape-control of Co3O4 and The Crystal Plane Effect on Electrochemical Performance,Advanced Materials, 2012, 24, 5762-5766.
27. Xiaoling Xiao, Xiangfeng Liu, Li Wang, Hu Zhao, Zhongbo Hu, Xiangming He, and Yadong Li*. LiCoO2 Nanoplates with Exposed (001) Planes and High Rate Capability for Lithium-Ion Batteries.Nano Res.2012, 5, 395-401.

Before UCAS

26. Xiangfeng Liu, Shane D. Beattie, Henrietta W. Langmia, G. Sean McGrady, Craig M. Jensen. Ti-doped LiAlH4 for hydrogen storage: Rehydrogenation process, reaction conditions and microstructure evolution during cycling.International Journal of Hydrogen Energy.2012, 37, 10215-10221.
25. Xiangfeng Liu, Henrietta W. Langmi, Shane D. Beattie, Felix F. Azenwi, G. Sean McGrady, Craig M. Jensen. Ti-Doped LiAlH4 for Hydrogen Storage: Synthesis, Catalyst Loading and Cycling Performance.J. Am. Chem. Soc.2011, 133, 15593-15597
24. Tim H. Mason, Xiangfeng Liu, J. Hong, J. Graetz, E.H. Majzoub. First-principles Study of Novel Conversion Reactions for High-capacity Li-ion Battery Anodes in the Li-Mg-B-N-H System.Journal of Physical Chemistry C
2011, 115, 16681–16687
23. Xiangfeng Liu, David Peaslee, Christopher Z. Jost, Eric H. Majzoub and T. Baumann. Systematic Pore-size Effects of Nanoconfinement of LiBH4: Elimination of Diborane Release and Tunable Behavior for Hydrogen Storage Applications.Chemistry of Materials. 2011, 23 (5): 1331-1336.
22. Xiangfeng Liu, David Peaslee, Christopher Z. Jost, and Eric H. Majzoub. Controlling the Decomposition Pathway of LiBH4 via Confinement in Highly Ordered Nanoporous Carbon.Journal of Physical Chemistry C.2010, 114, 14036–14041
21. Henrietta W. Langmi, G. Sean McGrady, Xiangfeng Liu, Craig M. Jensen. Modification of the H2 Desorption Properties of LiAlH4 through Doping with Ti.Journal of Physical Chemistry C, 2010,114, 10666-10669.
20. Xiangfeng Liu, G. Sean McGrady, Henrietta W. Langmi, and Craig M. Jensen. Facile Cycling of Ti-doped LiAlH4 for High Performance Hydrogen Storage.J. Am. Chem. Soc.,2009, 131,5032-5033.
19. Xiangfeng Liu, Kohta Asano, Naoyoshi Terashita, Etsuo Akiba. Hydrogenation of C14 Laves phase alloy: CaLi2.International Journal of Hydrogen Energy,2009, 34(3):1472-1475.
18. Xiangfeng Liu, Kohta Asano, Etsuo Akiba. Direct synthesis of BaAlH5 and Ba2AlH7 from BaH2 and Al system and their hydriding/dehydriding characteristics.Journal of Alloys and Compounds,2009, 477, 744-748.
17. Kohta Asano, Kouji Sakaki, Xiangfeng Liu and Etsuo Akiba. Hydrogenation of CaLi2-xMgx (0 ≤ x ≤ 2) with C14 Laves phase structure.Journal of Alloys and Compounds,2009, 482, L18–L21.
16. Xiangfeng Liu, Kohta Asano, Kouji Sakaki, Yumiko Nakamura, H. Enoki, Etsuo Akiba. Investigations on the formation and decomposition behaviors of BaAlH5 and Ba2AlH7.Journal of Physical Chemistry C, 2008, 112: 17423-17426.
15. Jianying Lv, Bingwen Yao, Xiangfeng Liu, Songbai Han, and Zhongbo Hu. Structure and magnetic properties of Nd3-xDyxFe23-yCo6Moy (x=0.5-3) compounds.Solid State Sciences, 2008, 10: 1412-1415.
14. Li-mei Sun, Xing-he Fan, Xiao-fang Chen, Xiang-feng Liu, Qi-Feng Zhou. Synthesis and characterization of graft copolymers containing poly( p-phenylene) main chains and mesogen-jacketed liquid crystalline polystyrene side chains.Journal of Polymer Science Part A: Polymer Chemistry, 2007, 45: 2543-2555.
13. S.B. Han, J.Y. Lv, X.F. Liu, J. Peng, D.F. Chen, J.H. Li and Z.B. Hu. Formation, structure and magnetic properties of Nd3−xZrxFe27.8Mo1.2 (0.1 ≤ x ≤ 0.5) compounds.Journal of Alloys and Compounds431 (1-2): 68-71 (2007).
12. Xiangjun Li, Xiangfeng Liu, Jianying Lv, et al. Crystallographic structure and magnetic properties of NdyDy1-yFe11-xTiCox compounds.Journal of Alloys and Compounds438: 21-24 (2007)
11. X. F. Liu, J. Y. Lv, Z. B. Hu, S. B. Han, D. F. Chen, Y. J. Xue, J. H. Li, R. Kiyanagi, J. S. Fieramosca, S. Short, and J. Jorgensen. Effects of the substitution of Al for Fe on phase transition, crystal structures, and magnetic properties of Nd3(Fe,Ti)29-type intermetallics.Journal of Applied Physics100, 103910 (2006)
10. X. F. Liu, J. Y. Lv, S. B. Han, Y. M. Hao, Z. B. Hu, D. F. Chen, Y. J. Xue, and J. H. Li, Cooperative effects of a combined substitution on the magnetic properties of Nd2-xYxFe17-ySiy intermetallic compounds (0≤x≤1.5, 0≤y≤3.0),Journal of Applied Physics,99, 023904, 2006.
9. S. B. Han, X.F. Liu, J.Y. Lv, J. Peng, Y. M. Hao, D. F. Chen, Y.J. Xue, J.H. Li and Z.B.Hu, Crystallographic and magnetic properties of (Nd,Dy)3Fe27.5(Ti-,Mo)1.5 compounds,Journal of Magnetism and Magnetic Materials,2006, 301 (2): 415-421.
8. X. F. Liu, D. F. Chen, Y. M. Hao, et al. Investigations on the structural and magnetic properties of doubly substituted Nd2Fe17-x-yTixGay compounds (0 ≤ x ≤1.0, 0 ≤ y ≤ 3).Journal of Alloys and Compounds,2006, 407: 58-64
7. X.F. Liu, S.B. Han, J.Y. Lv, X.J. Li, Z.B. Hu, D.F. Chen, Y.J. Xue and J.H. Li, The effects of the combined substitution of Y and Ga on the crystallographic structure of Nd2−xYxFe17−yGay intermetallic compounds,Journal of Alloys and Compounds, 2005,400: 178-183
6. S. B. Han, J Y Lv, X F Liu, J Peng, X J Li, D F Chen, Y J Xue, J H Li and Z B Hu, Effect of Zr addition on the formation and structural properties of (3:29) compounds in the Fe-Nd-Ti-Zr system,J. Phys.: Condens. Matter.17 (2005) 6007-6014.
5. J. Y. Lv, S. B. Han, X. F. Liu, X. J. Li, Z.B.Hu, J. H. Li, Y. J. Xue and D. F. Chen, Structure analysis of Nd3-xYxFe23-yCo6Moy (x=0.36-3.0; y=1.1,0.9) compounds,Journal of Applied Physics, 98,33903 (2005).
4. S. B. Han, J. Y. Lv, X. F. Liu, et al. Synthesis and structural properties of Nd3-xYxFe27.5Ti0.8Mo0.4 (0 ≤ x ≤ 1.8) and Nd3-x’Yx’ Fe27.8Mo1.2(0 ≤ x’ ≤ 2.8) intermetallic compounds.Journal of Alloys and Compounds, 2005, 403 (1-2): 168-175
3. S. B. Han, J. Y. Lv, X. F. Liu, et al. Effects of substitution of Dy for Nd on the structural and magnetic properties of Nd3-xDyxFe27.5Mo1.5 (0.3 ≤ x ≤ 1.8)PHYSICA B-CONDENSED MATTER2005, 367 (1-4): 275-281
2. J. Y. Lv, X. F. Liu, S. B. Han, et al. Structure and magnetic properties of (Nd,Y)(3)(Fe,Co,Ti)(29) compounds.PHYSICA B-CONDENSED MATTER2005, 369 (1-4): 266-272.
1. X. F. Liu, J. Y. Lv, S. B. Han, J. Peng, H. Wang, Z. B. Hu, D. F. Chen, Y. J. Xue, and J. H. Li, Effects of double substitution on the magnetic properties of Nd2Fe17-x-yTixAly: A combined investigation of x-ray diffraction, neutron diffraction and magnetic measurement,Journal of Applied Physics,98, 013537, 2005.

Patents

1. Kohta Asano, Kouji Sakaki, Xiangfeng Liu, Etsuo Akiba. A kind of novel hydrogen storage alloy with a C14-type Laves phase structure. (JP2009209396)
2. E.H. Majzoub, Tim H. Mason, Xiangfeng Liu. High Capacity Complex Hydrides as battery Electrode Materials. (61/520,178)

Opening positions

We are looking for postodoctorals working on Li-ion, Na-ion, metal-air and solid state batteries,  and electrocatalysis(HER, OER and ORR et ac.).