个人简介
张亚平,广东工业大学“青年百人”引进人才。
教育背景
2008/09—2014/06,华南理工大学,环境与能源学院,研究生/博士;
2012/09-2014/03,康奈尔大学,生物与环境工程系,联合培养博士;
2004/09-2008/06,湖北大学,资源环境学院,本科/学士。
工作经历
2014/7 – 至今 广东工业大学 青年百人
科研项目
1、国家自然科学基金青年基金项目:共存条件下重金属离子与阳极电活性生物膜互作机理及其环境意义(21607030),2016.08-2019.12,25万元,在研、主持。
2、广东省自然科学基金:重金属离子对生物电化学系统阳极电活性生物膜功能性抑制机理与调控策略(2016A030310351),2017.01-2019.06,10万元,在研、主持。
3、广东工业大学“青年百人”项目(人才计划项目),1143-220413514,生物电化学系统中电子传递的强化及其在污染物降解中的应用,2014.12-2016.12,10万元,在研、主持。
我的团队
固体废弃物处理与污染控制科研团队
近期论文
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1. Shaofeng Zhou, Lihua Zhou, Yaping Zhang*, Jian Sun, Junlin Wen, Yong Yuan*, Upgrading earth-abundant biomass into three-dimensional carbon materials for energy and environmental applications, Journal of Materials Chemistry A, 2019,7: 4217-4229.
2.Yaping Zhang, Guanqun Li, Jing Wen, Yangao Xu, Jian Sun, Xun-an Ning, et al. Electrochemical and microbial community responses of electrochemically active biofilms to copper ions in bioelectrochemical systems, Chemosphere, 2018, 196: 377-385.
3.Zhang Y, Sun J, Hu Y, et al. Effects of periodically alternating temperatures on performance of single-chamber microbial fuel cells. International Journal of Hydrogen Energy. 2014; 39, 8048-54.
4.Zhang Y, Sun J, Hu Y, Li S, Xu Q. Carbon nanotube-coated stainless steel mesh for enhanced oxygen reduction in biocathode microbial fuel cells. J of Power Sources. 2013; 239:169-74.
5.Zhang, Y, Sun, J., Hu, Y., Li, S., Xu, Q. Bio-cathode materials evaluation in microbial fuel cells: A comparison of graphite felt, carbon paper and stainless steel mesh materials. International Journal of Hydrogen Energy, 2012; 37(22), 16935-42.
6.Zhang Y, Hu Y, Li S, Sun J, Hou B. Manganese dioxide-coated carbon nanotubes as an improved cathodic catalyst for oxygen reduction in a microbial fuel cell. J Power Sources. 2011; 196: 9284-9.
7.Zhang Y, Sun J, Hou B, Hu Y. Performance improvement of air-cathode single-chamber microbial fuel cell using a mesoporous carbon modified anode. J Power Sources. 2011; 196: 7458-64.
8.Sun J, Li W, Li Y, Hu Y, Zhang Y. Redox mediator enhanced simultaneous decolorization of azo dye and bioelectricity generation in air-cathode microbial fuel cell. Bioresour Technol. 2013; 142: 407-14.
9.Li S, Hu Y, Xu Q, Sun J, Hou B, Zhang Y. Iron- and nitrogen-functionalized graphene as a non-precious metal catalyst for enhanced oxygen reduction in an air-cathode microbial fuel cell. J Power Sources. 2012; 213:265-9.
10.Sun J, Li Y, Hu Y, Hou B, Zhang Y, Li S. Understanding the degradation of Congo red and bacterial diversity in an air–cathode microbial fuel cell being evaluated for simultaneous azo dye removal from wastewater and bioelectricity generation. Appl Microbiol Biotechnol. 2013; 97:3711-9.