Education Background:

2009.12, Ph.D., School of Physics and Technology, Lanzhou University;

2008.10-2009.9 University of California, Berkeley (University of California, Berkeley) jointly trained PhD students;

2004.7, Bachelor of Science, Lanzhou University.


Work Experience:

2021.7-Present, Master's tutor in electronic information of Lanzhou University;

2020.9 - Present, Professor, School of Physics and Technology, Lanzhou University;

2020.1 - Present, Doctoral supervisor in Condensed Matter Physics, Lanzhou University;

2017.6  - 2020.8, Youth Professor, School of Physics and Technology, Lanzhou University;

2013.12 - Present, Master's tutor in Condensed Matter Physics, Lanzhou University;

2016.12 - Present, Master's tutor in Materials Engineering, Lanzhou University;

2012.6 - 2017.5, Associate Professor, School of Physics and Technology, Lanzhou University;

2014.3 - 2015.3, BELSPO-Marie Curie Postdoctoral Fellow, Faculty of Science, Ghent University, Belgium;

2012.11 - 2013.1, Erasmus Mundus-MOVER Visiting Scholar at the Faculty of Engineering, University of Porto, Portugal;

2010.1 - 2012.5, Lecturer, School of Physics Science and Technology, Lanzhou University.
					

						 Energy catalysis (supercapacitor, lithium sulfur battery, hydrogen energy)

Semiconductor physical electronics (gas sensor, wide bandgap semiconductor devices)
					

						Undergraduate courses: "Semiconductor Physics", "Electronics Fundamentals (Medical)", "General Physics", "General Physics Experiment", "Semiconductor Physics Experiment"

Postgraduate Course: "Experimental Methods of Solid State Physics"
						

						Selective publications:

[1] Wu, Qingfeng;Zhang, Yuhao;Lin, Yuan;Wei, Wei;Liu, Guo;Cui, Xiaosha;Su, Meixia;Jiang, Haiqing;Wu, Tianyu;Li, Xijuan;Lv, Xueliang;Tao, Kun;Xie, Erqing;Zhang, Zhenxing, Three-Dimensional Polypyrrole-Decorated CuCo2S4 Nanowires Anchored on Nickel Foam: A Promising Electrode for High-Performance Supercapacitors, ACS Appl. Mater. Interfaces, (2023).
[2] Wang, Xukun;Zhang, Wenjian;Wang, Xinge;Li, Xijuan;Sui, Xinyi;Liu, Guo;Li, Bingsheng;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, Facile fabrication of NiO foam@Sn-doped In2O3 nanowire heterosturctures for highly sensitive ethylene glycol gas sensors at low temperatures, Sensors Actuators B: Chem., 377 (2023) 132991.
[3] Wang, Xukun;Zhang, Wenjian;Wang, Xinge;Li, Xijuan;Sui, Xinyi;Jiang, Haiqing;Liu, Guo;Li, Bingsheng;Sheng, Yanbin;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, Heterostructure engineering of NiO foam /In2S3 film for high-performance ethylene glycol gas sensors, Sensors Actuators B: Chem., 392 (2023) 134110.
[4] Wang, Xinge;Wang, Xukun;Wei, Wei;Jiang, Haiqing;Li, Xijuan;Liu, Guo;Zhu, Zhiqi;Li, Bingsheng;Sheng, Yanbin;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, Humidity-resistant ethanol gas sensors based on electrospun tungsten-doped cerium oxide hollow nanofibers, Sensors Actuators B: Chem., (2023) 134210.
[5] Liu, Guo;Zeng, Qi;Wu, Qingfeng;Tian, Shuhao;Sun, Xiao;Wang, Di;Li, Xijuan;Wei, Wei;Wu, Tianyu;Zhang, Yuhao;Sheng, Yanbin;Tao, Kun;Xie, Erqing;Zhang, Zhenxing, Manipulating Sulfur Conversion Kinetics through Interfacial Built-In Electric Field Enhanced Bidirectional Mott–Schottky Electrocatalysts in Lithium–Sulfur Batteries, ACS Appl. Mater. Interfaces, 15 (2023) 39384-39395.
[6] Liu, Guo;Zeng, Qi;Tian, Shuhao;Tao, Kun;Xie, Erqing;Zhang, Zhenxing, Deciphering the electrocatalysis essence of cobalt diselenide in lithium-sulfur electrochemistry from crystal-phase engineering, Chem. Eng. J., 463 (2023) 142416.
[7] Liu, Guo;Zeng, Qi;Sun, Xiao;Tian, Shuhao;Wang, Di;Wu, Qingfeng;Li, Xijuan;Wei, Wei;Wu, Tianyu;Zhang, Yuhao;Sheng, Yanbin;Tao, Kun;Xie, Erqing;Zhang, Zhenxing, Regulating Electrocatalytic Polysulfides Redox Kinetics through Manipulating Surface Electronic Structure of Molybdenum-Based Catalysts for High-Performance Lithium-Sulfur Batteries, ACS Appl. Energy Mater., 6 (2023) 5588–5597.
[8] Liu, Guo;Zeng, Qi;Sui, Xinyi;Tian, Shuhao;Sun, Xiao;Wu, Qingfeng;Li, Xijuan;Zhang, Yuhao;Tao, Kun;Xie, Erqing;Zhang, Zhenxing, Modulating d-Band Electronic Structures of Molybdenum Disulfide via p/n Doping to Boost Polysulfide Conversion in Lithium-Sulfur Batteries, Small, n/a (2023) 2301085.
[9] Li, Xijuan;Wang, Xukun;Liu, Guo;Sui, Xinyi;Wu, Qingfeng;Wang, Xinge;Lv, Xueliang;Xie, Erqing;Zhang, Zhengxing, 2.5 V “water in salt” aqueous micro-supercapacitors based on polypyrrole-coated NiCo layered double hydroxides, Chem. Eng. J., 452 (2023) 139140.
[10] Hu, Qiang;Jiang, Haiqing;Zhang, Wenjian;Wang, Xukun;Wang, Xinge;Zhang, Zhenxing, Unveiling the synergistic effects of hydrogen annealing on CeO2 nanofibers for highly sensitive acetone gas detection: Role of Ce3+ ions and oxygen vacancies, Appl. Surf. Sci., 640 (2023) 158411.
[11] Zhang, Wenjian;Wang, Xukun;Wu, Junnian;Wang, Xinge;Lv, Xueliang;Liu, Guo;Li, Bingsheng;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, Electrospun Nb-doped CeO2 nanofibers for humidity independent acetone sensing, Appl. Surf. Sci., 602 (2022) 154303.
[12] Lv, Xueliang;Zhang, Yaxiong;Li, Xijuan;Fan, Zhiye;Liu, Guo;Zhang, Wenjian;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, High-performance magnesium ion asymmetric Ppy@FeOOH//Mn3O4 micro-supercapacitor, J Eenergy Chem., 72 (2022) 352-360.
[13] Liu, Guo;Zeng, Qi;Sui, Xinyi;Tian, Shuhao;Li, Xijuan;Wu, Qingfeng;Wang, Xukun;Tao, Kun;Xie, Erqing;Zhang, Zhenxing, Modulating the d-p orbital coupling of manganese chalcogenides for efficient polysulfides conversion in lithium–sulfur batteries, J. Power Sources, 552 (2022) 232244.
[14] Liu, Guo;Zeng, Qi;Fan, Ziye;Tian, Shuhao;Li, Xijuan;Lv, Xueliang;Zhang, Wenjian;Tao, Kun;Xie, Erqing;Zhang, Zhenxing, Boosting sulfur catalytic kinetics by defect engineering of vanadium disulfide for high-performance lithium-sulfur batteries, Chem. Eng. J., 448 (2022) 137683.
[15] Li, Xi-juan;Liu, Guo;Wu, Qing-feng;Wang, Xu-kun;Sui, Xin-yi;Wang, Xin-ge;Fan, Zi-ye;Xie, Er-qing;Zhang, Zhen-xing, High-performance Zn microbattteries based on a NiCo-LDH@ITO nanowire/carbon cloth composite, New Carbon Materials, 37 (2022) 968-977.
[16] Zhang, Wenjian;Wang, Xukun;Fan, Ziye;Li, Juan;Liu, Guo;Lv, Xueliang;Li, Bingsheng;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, Switching Effect of p-CuO Nanotube/n-In2S3 Nanosheet Heterostructures for High-Performance Room-Temperature H2S Sensing, ACS Appl. Mater. Interfaces, 13 (2021) 52938-52949.
[17] Hu, Qiang;Zhang, Wenjian;Wang, Xiaoyu;Wang, Qiao;Huang, Baoyu;Li, Yan;Hua, Xiaohui;Liu, Guo;Li, Bingsheng;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, Binder-free CuO nanoneedle arrays based tube-type sensor for H2S gas sensing, Sensors Actuators B: Chem., 326 (2021) 128993.
[18] Hu, Qiang;Huang, Baoyu;Li, Yan;Zhang, Shengming;Zhang, Yaxiong;Hua, Xiaohui;Liu, Guo;Li, Bingsheng;Zhou, Jinyuan;Xie, Erqing;Zhang, Zhenxing, Methanol gas detection of electrospun CeO2 nanofibers by regulating Ce3+/ Ce4+ mole ratio via Pd doping, Sensors Actuators B: Chem., 307 (2020) 127638.
[19] Mu, Xuemei;Du, Jingwei;Li, Yan;Bai, Hao;Zhao, Hao;Wei, Zhiming;Huang, Baoyu;Sheng, Yingzhuo;Zhang, Zhenxing;Xie, Erqing, One-step laser direct writing of boron-doped electrolyte as all-solid-state microsupercapacitors, Carbon, 144 (2019) 228-234.
[20] Li, Yan;Zhang, Shengming;Ma, Mingyu;Mu, Xuemei;Zhang, Yaxiong;Du, Jingwei;Hu, Qiang;Huang, Baoyu;Hua, Xiaohui;Liu, Guo;Xie, Erqing;Zhang, Zhenxing, Manganese-doped nickel molybdate nanostructures for high-performance asymmetric supercapacitors, Chem. Eng. J., 372 (2019) 452-461.
[21] Du, Jingwei;Zhao, Yirong;Zhang, Zemin;Mu, Xuemei;Jiang, Xiao;Huang, Baoyu;Zhang, Yaxiong;Zhang, Shengming;Zhang, Zhenxing;Xie, Erqing, High-Performance Pseudocapacitive Microsupercapacitors with Three-Dimensional Current Collector of Vertical ITO Nanowire Arrays, J. Mater. Chem. A, 7 (2019) 6220-6227.
[22] Du, Jingwei;Mu, Xuemei;Zhao, Yirong;Zhang, Yaxiong;Zhang, Shengming;Huang, Baoyu;Sheng, Yingzhuo;Xie, Yizhu;Zhang, Zhenxing;Xie, Erqing, Layered coating of ultraflexible graphene-based electrodes for high-performance in-plane quasi-solid-state micro-supercapacitors, Nanoscale, 11 (2019) 14392-14399.


						

						 Currently presiding over 1 National Natural Science Foundation of China (NSFC) project, participating in 2 NSFC projects and 2 Gansu Provincial Natural Science Foundation projects. Have presided over and completed 1 Gansu Provincial Natural Science Foundation project, 1 Lanzhou University central university basic scientific research project, 1 open project of the Ministry of Education Key Laboratory of Magnetism and Magnetic Materials, and 1 enterprise horizontal project, and participated in the completion of 1 NSFC project, 1 Gansu Provincial Science and Technology Support Program project.

Presided projects:

12. NSFC General Program, 51972154, 2020.1.1-2023.12.31

11. NSFC Youth Science Foundation, 51302122, 2014.1.1-2016.12.31 

10. Enterprise Horizontal Project, 2012.5.1-2013.5.5

9. Gansu Provincial Youth Science Foundation, 1107RJYA280, 2011.1.1-2013.12.31

8. Lanzhou University Central University Basic Scientific Research Fund, lzujbky-2010-82, 2010.6-2012.6

7. Open project of Lanzhou University Ministry of Education Key Laboratory of Magnetism and Magnetic Materials, LZUMMM2010023, 2010.3-2011.1

Participated projects:

6. NSFC Youth Science Foundation, 51202100, 2013.1.1-2015.12.31

5. Gansu Provincial General Program, 1208RJZA227, 2012.1.1-2014.12.31 

4. Gansu Provincial Youth Science Foundation, 1208RJYA021, 2012.1.1-2014.12.31

3. NSFC Major Program of National Science and Technology Infrastructure, U1232121, 2013.1.1-2015.12.31

2. NSFC General Program, 61176058, 2012.01-2015.12

1. Gansu Provincial Science and Technology Support Program, 1011GKCA027, 2010.1.1-2012.12.31
						

						2012-2013 "Excellent Class Tutor" of Lanzhou University (Class 2010 Microelectronics)

2016-2018 "Excellent Class Tutor" of Lanzhou University (Class 2015 Materials Chemistry)
						

						More info can be found:

1. Google Scholar：https://scholar.google.com/citations?user=G2eRxw8AAAAJ&hl=zh-TW

2. Researchgate：https://www.researchgate.net/profile/Zhenxing_Zhang2

3. http://ir.lzu.edu.cn/zhangzx@lzu.edu.cn