个人简介
教育背景
2000.09-2004.06 哈尔滨工业大学, 电化学专业,学士学位
2004.09-2009.07 哈尔滨工业大学 ,电化学专业,博士学位
工作履历
2009.07-2019.05 中国科学院大连化学物理研究所 副研究员
2019.06-至今 东北大学秦皇岛分校,资源与材料学院,副教授
学术兼职
中国科学院创新促进会会员
研究领域
金属锌具有储量丰富、成本低、能量密度高、氧化还原反应速率快等优点,因此以金属锌为负极衍生的多种液流电池体系有望解决液流电池所面临的能量密度低、成本高的应用困境。申请者自2012年任现职以来,主要负责锌基液流电池体系方面的基础研究及工程应用开发。先后主持、参与了国家“973”项目、国家自然科学基金项目,以及多项国际及国内企业横向合作项目。研究方向涉及锌溴液流电池、锌溴单液流电池、锌镍单液流电池等锌基液流电池的催化材料、电解质溶液化学、电极及电池结构设计、电池组结构设计优化等领域。
近期论文
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Chenhui Wang, Qinzhi Lai, Pengcheng Xu, Daoyuan Zheng, Xianfeng Li,* Huamin Zhang* Cage-like Porous Carbon with Superhigh Activity and Br2 Complex Entrapping Capability for Bromine-Based Flow Batteries. Advanced Materials DOI: 0.1002/adma.201605815
Wang, Chenhui; Li, Xianfeng; Xi, Xiaoli; Zhou, Wei; Lai, Qinzhi;* Zhang, Hua. Bimodal highly ordered mesostructure carbon with high activity for Br2/Br- redox couple in bromine. Nano Energy, 21, 217-227, 2016.
Wang, Chenhui; Li, Xianfeng; Xi, Xiaoli; Zhou, Wei; Lai, Qinzhi;* Zhang, Hua. Relationship between activity and structure of carbon materials for Br2/Br- in zinc bromine flow batteries.RSC ADV. 6, 40169-40174, 2016.
Xi X, Li X, Wang C, Lai Q*, Cheng Y, Zhou W, Ding C, Zhang H. Impact of Proton Concentration on Equilibrium Potential and Polarization of Vanadium Flow Batteries. Chem Plus Chem, 80, 382-389,2015;
C. Y. hui, Xiaoli Xi,Xianfeng Li, Qinzhi Lai* Performance and potential problems of high power density zinc-nickel single flow Batteries RSC Adv.5, 1772-1776,2015.
Cheng Yuanhui, Lai Qinzhi*, Li Xianfeng, Xi Xiaoli, Zheng Qiong, Ding Cong, Zhang Huamin, Zinc-nickel single flow batteries with improved cycling stability by eliminating zinc accumulation on the negative electrode. Electrochimica Acta, 145: 109-115,2014.
C. Y. hui, H. M. Zhang*, Q. Z. Lai*. Effect of temperature on performances and in situ polarization analysis of zinc-nickel single flow batteries. J. Power Sources, 249, 435-439, 2014.
Q. Z. Lai, H. M. Zhang*, X. F. Li*. A novel single flow zinc–bromine battery with improved energy density. J. Power Sources, 235, 1-4, 2013.
C. Y. hui, H. M. Zhang*, Q. Z. Lai*. A high power density single flow zinc nickel battery with three-dimensional porous negative electrode. J. Power Sources, 241, 196-202, 2013.
C. Y. hui, H. M. Zhang*, Q. Z. Lai*. Performance gains in single flow zinc–nickel batteries through novel cell configuration. Electrochimica Acta, 105, 618-621, 2013.
L. Q. Zhang, H. M. Zhang*, Q. Z. Lai. A novel design of electrode structure of zinc/bromine redox flow battery with high performance. J. Power Sources, 227, 41-47, 2013.
L. Q. Zhang, Q. Z. Lai, J. L. Zhang, H. M. Zhang*. A novel redox flow battery with high energy density based on the Zinc/poly halide redox chemistries. Chem Sus Chem, 5, 867-869, 2012.