何平




何平
副教授
办公室地址:科学楼1302
办公室电话:025-83593783
Email: pinghe@nju.edu.cn


实验室主页: http://energy.nju.edu.cn
研究方向
功能材料与电化学,高比能二次电池技术
开设课程
《能源科学与工程概论》,《储能材料与电池技术》,《能源科学基础实验》
个人简介

物理化学博士,南京大学现代工程与应用科学学院副教授、博士生导师。20036月毕业于南京航空航天大学应用化学专业,获理学学士学位,20096月于复旦大学化学系获得物理化学博士学位,同年赴日本国立产业技术综合研究所能源技术研究所任特别研究员(博士后),从事高比能量二次电池的开发和研究。201111月受南京大学人才引进计划资助回国工作,并筹建 南京大学储能材料与电池技术实验室 。主要研究领域为功能材料电化学与储能器件,包括动力型锂离子电池,水系二次电池,高比能量锂空气电池。近年来在能源材料及电化学领域的权威刊物如Nat Chem, Nat Commun, NPG Asia Materials, Energy Enviroment Sci, Adv Energy Mater, J Electrochem Soc 等发表SCI论文70余篇,其中以通讯或第一作者身份发表SCI论文40篇,文章他引2700余次,个人H-index 30。获得日本专利2项,中国专利多项。2009年获得吴浩青电化学奖,2015年获南京大学 中国银行教学成果奖 。担任国家自然科学基金委评审专家和20余种国际学术期刊的审稿人。现主持多项国家及省部级科研项目:国家重点研发计划 新能源汽车 专项课题,国家纳米重大研究计划(973)二级课题,国家自然科学基金项目(2项),江苏省自然科学基金(2项),教育部博士点基金,留学归国人员启动基金等。

科研成果
文章:

Selected Peer-Reviewed Journal Publications in nearly 3 years.

[1] Yang, S. X.; Qiao, Y.; He, P.* ; Liu, Y. J.; Cheng, Z.; Zhou, H. S., A reversible Lithium-CO2 battery with Ru nanoparticles as cathode catalyst. Energy Environ Science, 2017,  10 , 972-978 

[2].Yang, S. X.; He, P.*; Zhou, H. S.*, Exploring the Electrochemical Reaction Mechanism of Carbonate Oxidation in Li-Air/CO2 Battery through Tracing Missing Oxygen. Energ Environ Sci.2016,9, 1650-1654.

[3].Jiang, J.; He, P.*; Tong, S. F.; et al., Ruthenium functionalized graphene aerogels with hierarchical and three-dimensional porosity as a free-standing cathode for rechargeable lithium-oxygen batteries. NPG Asia Mater2016, 8, e239:1-7.

[4].Feng, N. N.; He, P.*; Zhou, H. S.*, Critical Challenges in Rechargeable Aprotic Li–O2 Batteries. Advanced Energy Materials,2016, 6(9),

[5].Deng, H.; Qiu, F. L.; Li, X.; Qin, H.; Zhao, S. Y.; He, P.*; Zhou, H. S., A Li-ion oxygen battery with Li-Si alloy anode prepared by a mechanical method. Electrochemistry Communications, 2017, doi: 10.1016/j.elecom.2017.03.010.

[6].Lu, Y.; Tong, S. F.; Qiu, F. L.; Jiang, J.; Feng, N. N.; Zhang, X. P.; He, P.*; Zhou, H. S.*, Exploration of LiO2 by the method of electrochemical quartz crystal microbalance in TEGDME based Li-O2 battery. Journal of Power Sources, 2016, 329, 525-529.

[7].Wang, C. Q.; Qiu, F. L.; Deng, H.; Zhang X. Y.; He, P.*; Zhou, H. S.*, Study on the Aqueous Hybrid Supercapacitor Based on Carbon-coated NaTi2(PO4)3 and Activated Carbon Electrode Materials. Acta Chim. Sinica, 2017, 75(2): 241-246.

[8].Feng, N. N.; Mu, X. W.; Zhang, X. P.; He, P.*; Zhou, H. S.*, Intensive Study on the Catalytical Behavior of N-Methylphenothiazine as a Soluble Mediator to Oxidize the Li2O2 Cathode of the Li–O2 Battery. ACS Applied Materials & Interfaces, 2016, 9(4), 3733-3739.

[9].Feng, N. N.; Mu, X. W.; Zheng, M. B.; Wang, C. Q.; Lin, Z. X.; Zhang, X. P.; Shi, Y.; He, P.*; Zhou, H. S., A multi-layered Fe2O3/graphene composite with mesopores as a catalyst for rechargeable aprotic lithium-oxygen batteries. Nanotechnology 2016,27 (36).

[10].Xu, F.; Li, X.; Xiao, F.; Xu, S. Z.; Zhang, X. P.; He, P.*; Zhou, H. S., A battery with sulphur cathode and lithiated graphite anode based on Lithium shuttle reaction. Mater Technol 2016,31 (9), 517-520.

[11].Li, X.; Yang, S. X.; Feng, N. N.; He, P.*; Zhou, H. S., Progress in research on Li-CO2 batteries: Mechanism, catalyst and performance. Chinese J Catal 2016,37 (7), 1016-1024.

[12].Jiang, J.; Deng, H.; Li, X.; Tong, S. F.; He, P.*; Zhou, H. S.*,Research on Effective Oxygen Window Influencing the Capacity of Li-O2 Batteries. ACS Appl Mater Inter, 2016, 8 (16), pp 10375–10382

[13].Dai, C. G.; Ye, J.; Zhao, S. Y.; He, P.*; Zhou, H. S.*, Fabrication of High-Energy Li-Ion Cells with Li4Ti5O12 Microspheres as Anode and 0.5 Li2MnO30.5 LiNi0.4Co0.2Mn0.4O2 Microspheres as Cathode. Chemistry-An Asian Journal, 2016,11(8), 1273–1280

[14].He, P.*; Zhang, T.; Jiang, J.; Zhou, H. S.*, Lithium Air Batteries with Hybrid Electrolytes. Journal of Physical Chemistry Letters, 2016, 7 (7), 1267–1280. (Cover Feature)

[15].Ye, J.; Li, Y. X.; Zhang, L.; Zhang, X. P.; Han, M.; He, P.*; Zhou, H. S.*, Fabrication and Performance of High Energy Li-Ion Battery Based on the Spherical Li[Li0.2Ni0.16Co0.1Mn0.54]O2 Cathode and Si Anode. Acs Appl Mater Inter 2016,8 (1), 208-214.

[16].Qiu, F. L.; He, P.*; Jiang, J.; Zhang, X. P.; Tong, S. F.; Zhou, H. S.*, Ordered mesoporous TiC-C composites as cathode materials for Li-O-2 batteries. Chem Commun 2016,52 (13), 2713-2716.

[17].Liu, Y. J.; Li, B. J.; Kitaura, H.; Zhang, X. P.; Han, M.; He, P.*; Zhou, H. S.*, Fabrication and Performance of All-Solid-State Li-Air Battery with SWCNTs/LAGP Cathode. Acs Appl Mater Inter 2015,7 (31), 17307-17310.

[18].Li, F. J.; Wu, S. C.; Li, D.; Zhang, T.; He, P.; Yamada, A.; Zhou, H. S.*, The water catalysis at oxygen cathodes of lithium-oxygen cells. Nat Commun 2015,6.

[19].Feng, N. N.; He, P.*; Zhou, H. S.*, Enabling Catalytic Oxidation of Li2O2 at the Liquid-Solid Interface: The Evolution of an Aprotic Li-O-2 Battery. Chemsuschem 2015,8 (4), 600-602.

[20].Liao, K. M.; Wang, X. B.; Sun, Y.; Tang, D. M.; Han, M.; He, P.; Jiang, X. F.; Zhang, T.; Zhou, H. S.*, An oxygen cathode with stable full discharge-charge capability based on 2D conducting oxide. Energ Environ Sci 2015,8 (7), 1992-1997.

[21].Liu, X. F.; Tong, S. F.; Dai, C. G.; He, P.*; Zhou, H. S.*, Synthesis of quasi-spherical micro-size lithium titanium oxide by an easy sol-gel method. J SolidState Electr 2015,19 (1), 299-305.

[22].Tong, S. F.; Zheng, M. B.; Lu, Y.; Lin, Z. X.; Li, J.; Zhang, X. P.; Shi, Y.; He, P.*; Zhou, H. S., Mesoporous NiO with a single-crystalline structure utilized as a noble metal-free catalyst for non-aqueous Li-O-2 batteries. J Mater Chem A 2015,3 (31), 16177-16182.

[23].Tong, S. F.; Zheng, M. B.; Lu, Y.; Lin, Z. X.; Zhang, X. P.; He, P.*; Zhou, H. S.*, Binder-free carbonized bacterial cellulose-supported ruthenium nanoparticles for Li-O-2 batteries. Chem Commun 2015,51 (34), 7302-7304.

[24].Jiang, J.; Liu, X. F.; Zhao, S. Y.; He, P.*; Zhou, H. S.*, Research Progress of Organic Electrolyte Based Lithium-Air Batteries. Acta Chim Sinica 2014,72 (4), 417-426.

[25].Jian, Z. L.; Liu, P.; Li, F. J.; He, P.; Guo, X. W.; Chen, M. W.; Zhou, H. S.*, Core-Shell-Structured CNT@RuO2 Composite as a High-Performance Cathode Catalyst for Rechargeable Li-O-2 Batteries. Angew Chem Int Edit 2014,53 (2), 442-446.



 
其他
招收和培养研究生情况以及学生获得的荣誉:
已培养博士生1名,硕士生5名;正指导博士后1名,博士生5名,硕士生多人