Key Laboratory of Electrochemical Technology On Energy Storage and Power Generation Of Guangdong Higher Education Institutes

2021-04-25 18:45:00

Introduction

Key Laboratory of Electrochemical Technology On Energy Storage and Power Generation Of Guangdong Higher Education Institutes (hereinafter referred to as the "Key Laboratory") was approved by the Education Department of Guangdong Province in March 2008.

The key laboratory pay attention on intersecting and penetrating of chemistry, biology, physics, materials and other disciplines, engaging in the foundation and application research in the fields of primary battery, secondary battery, fuel cell, metal corrosion and protection, electrochemical wastewater treatment, etc.

 

Representative research

 

1.李伟善,黄启明,吕东生,陈红雨,袁中直,李红,刘煦,张世涌,黎凤鸣,邱仕洲,无汞碱性锌锰电池关键材料的研究与应用2004,广东省科技进步二等奖

 

2.X. Li, M. H. Hu, L. Z. Zeng, J. Xiong, B. H. Tang, Z. M. Hu, L. D. Xing, Q. M. Huang*, W. S. Li*, Co-modified MoO2 nanoparticles highly dispersed on N-doped carbon nanorods as anode electrocatalyst of microbial fuel cells, Biosensors and Bioelectronics, 2019, 145: 111727

 

3.M. H. Hu, X. Li, J. Xiong, L. Z. Zeng, Y. S. Huang, Y. P. Wu, G. Z. Cao*, W. S. Li*, Nano-Fe3C@PGC as a novel low-cost anode electrocatalyst for superior performance microbial fuel cells, Biosensors and Bioelectronics, 2019, 142:111594

 

4.K. Wang, L. D. Xing*, H. Z. Zhi, Y. X. Cai, Z. M. Yan, D. D. Cai, H. B. Zhou, W. S. Li*, High stability graphite/electrolyte interface created by a novel electrolyte additive: A theoretical and experimental study, Electrochim. Acta, 2018, 262:226-232

 

5.J. Xiong, M. H. Hu, X. P. Li, H. Y. Li, X. Li, X. Liu, G. Z. Cao*, W. S. Li*, Porous graphite: a facile synthesis from ferrous gluconate and excellent performance as anode electrocatalyst of microbial fuel cell, Biosensors and Bioelectronics, 2018, 109: 116–122

 

6.H. Y. Li, B. Liao, J. Xiong, X. W. Zhou, H. Z. Zhi, X. Liu*, X. P. Li, W. S. Li*, Power output of microbial fuel cell emphasizing interaction of anodic binder with bacteria, J. Power Sources, 2018, 379: 115–122

 

7.X. F. Chen, X. S. Wang, K. T. Liao, L. Z. Zeng, L. D. Xing, X. W. Zhou, X. W. Zheng, W. S. Li*,  Improved power output by incorporating polyvinyl alcohol into the anode of a microbial fuel cell, J. Mater. Chem. A, 2015, 3: 19402 - 19409

 

8.X. G. Li, M. M. Rao, H. B. Lin, D. R. Chen, Y. L. Liu, S. Z. Liu, Y. H. Liao, L. D. Xing, M. Q. Xu, W. S. Li*, Sulfur loaded in curved graphene and coated with conductive polyaniline: Preparation and performance as cathode of lithium-sulfur battery, J. Mater. Chem. A, 2015, 3:18098 – 18104

 

9.X. Q. Chen, H. B. Lin, X. W. Zheng, X. Cai, P. Xia, Y. M. Zhu, X. P. Li, W. S. Li*, Fabrication of Core-Shell Porous Nanocubic Mn2O3@TiO2 as High-Performance Anode for Lithium Ion Battery, J. Mater. Chem. A, 2015, 3: 18198 – 18206

 

10.X. F. Chen, D. Cui, X. J, Wang, X. S. Wang, W. S. Li*, Porous carbon with defined pore size as anode of microbial fuel cell, Biosensors and Bioelectronics, 2015, 69:135-141


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