郑洪河,特聘教授,2001年毕业于湖南大学获工学博士学位,2004年在日本京都大学工学部日本电化学会主席Zempachi Ogumi教授实验室访问研究,2006-2010在美国劳伦斯伯克利国家实验室工作,先后任客座研究员和研究员,是美国能源部(DOE)重大项目“Batteries for advanced transportation technologies program(BATT)”的主要研制者和动力锂离子电池工艺学负责人。先后主持或承担完成美国能源部BATT国际联合攻关重大项目1项,中国国家自然科学基金3项、科技部863专项1项(副组长),与锂离子电池相关企业合作项目4项,出版与新能源技术相关的科学著作三部,共计超过100万字。在国内外重要新能源与材料相关期刊发表论文70余篇,申请中国和美国发明专利11项,获得14届IMBL国际学术奖1项。
电 话:0512-69153523
Email:hhzheng@suda.edu.cn
详细介绍
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获奖荣誉
苏州金鸡湖领军人才
研究领域
1、锂离子电池关键材料的设计与制造
2、锂离子电池电解质及其与电极材料间的相容性
3、锂离子电池关键技术与关键工艺
4、溶液与熔盐化学
基金项目
1.国家自然科学基金,共掺杂金属阳离子制备快离子导体复合尖晶石LiMn1.5Ni0.5O4阴极材料,2013-2016,80万元,项目主持人;
2.国家自然科学基金,锂离子电池正负极间的相互作用与机理研究,2011-2013, 36万元,项目主持人;
3.横向项目:张家港华盛新能源材料开发与产业化,2012-2017,项目主持人
4.横向项目:深圳新宙邦电解液项目,2011-2015,项目主持人
5.横向项目:浙江湖州创亚集团,2011-2015,项目主持人
6.国家自然科学基金,室温熔盐用作锂离子电池电解质与电极材料的相容性,2006-2008,26万元,主持人;
7.科技部“863”科技专项:磷酸铁锂-导电高分子复合正极材料 2009-2011,96万元,副组长
8.省杰出青年科学基金:纳米储能材料的制备与电极过程的原位光谱学研究2004-2006,32万元,项目主持人
代表性著作、研究成果
(1) 郑洪河等,《锂离子电池电解质》,39.2万字,化学工业出版社,2007
(2) H. H. Zheng*, R. Z. Yang, G. Liu, X. Y. Song, V. S. Battaglia, “Cooperation between Active Material, Polymeric Binder and Conductive Carbon Additive in Lithium-ion Battery Cathode”, J. Phys. Chem. C, 116:4875-4882, 2012,
(3) H. H. Zheng*, L. L. Chai, X. Y. Song, V. S. Battaglia, “Electrochemical cycling behavior of LiFePO4 cathode charged with different upper voltage limits”, Electrochim. Acta, 62: 256–262, 2012.
(4) H. H. Zheng*, L. Tan, G. Liu, X. Y. Song, V. S. Battaglia, “Calendering effects on the physical and electrochemical properties of Li[Ni1/3Mn1/3Co1/3]O2 cathode”, J. Power Sources, 208:52-57, 2012.
(5) H. H. Zheng*, Q. N. Sun, G. Liu, X. Y. Song, V. S. Battaglia, “Correlation between dissolution behavior and electrochemical cycling performance for LiNi1/3Co1/3Mn1/3O2-based cells”, J. Power Sources, 207-134-140, 2012
(6) H. H. Zheng*, Q. T. Qu, L. Tan, “Hard carbon: a promising lithium-ion battery anode for high temperature applications in ionic electrolyte”, RSC advances, 2: 4904-4912,2012.
(7) H. H. Zheng*, J. Li, G. B. Zhu, “A comprehensive understanding of enhancing energy-density by increasing electrode thickness for Li-ion battery cathode”, Electrochim. Acta, 71:258– 265, 2012.
(8) Honghe Zheng; Li Zhang; Gao Liu; Xiangyun Song; Vincent S Battaglia, The influence of mechanical property on the electrochemical cycling performance for graphite anode in lithium ion cells,J. Power Sources, 217:530-537, 2012
(9) J. Shao, X. Li, Q. Qu, H. H. Zheng*, One-step hydrothermal synthesis of hexangular starfruit-like vanadium oxide for high power aqueous supercapacitors J. Power Sources, 219:253-257, 2012
(10) H. Pang, Z. Yan , W. Wang , J. Chen , J. Zhang, H. H. Zheng*, Facile fabrication of NH4CoPO4?H2O nano/microstructures and their primarily application as electrochemical supercapacitor, DOI: 10.1039/c2nr31208e, 2012
(11) H Pang?, Y Shi, J Du, Y Ma, G Li, J Chen, J Zhang, H Zheng?, B Yuan,?Porous nickel oxide microflowers synthesized by calcination of coordination microflowers and their applications as glutathione electrochemical sensor and supercapacitors Electrochimica Acta 85 (2012) 256– 262
(12) H Pang*,Y Ma, G Li, J Chen, J Zhang, H Zheng*,W Du, Facile synthesis of porous ZnO–NiO composite micropolyhedrons and their application for high power supercapacitor electrode materials,DOI: 10.1039/c2dt31916k, 2012
(13) Paul Ridgway, Honghe Zheng, A. F. Bello, Xiangyun Song, Shidi Xun, Jin Chong, and Vincent Battaglia, Comparison of Cycling Performance of Lithium Ion Cell Anode Graphites J. Electrochem. Soc. 159: A520-526, 2012.
(14) L. W. Ji, H. H. Zheng, A. Ismach, Z. K. Tan, S. D. Xun, E. Lin, V. S. Battaglia, Y. G. Zhang, “Graphene/Si multilayer structure anodes for advanced half and full lithium-ion cells”, Nano Energy, 2012, 1(1): 164–171.
(15) C. Jin, C. H. Yang, H. H. Zheng*, F. L. Chen, “Intermediate temperature solid oxide fuel cells with Cu1.3Mn1.7O4 internal reforming layer”, J. Power Sources, 2012, 201: 66–71.
(16) C. Jin, Z. B. Yang, H. H. Zheng*, C. H. Yang, F. L. Chen, “La0.6Sr1.4MnO4 layered perovskite anode material for intermediate temperature solid oxide fuel cells”, Electrochem. Commun., 2012, 14: 75–77.
(17) G. Liu, H. H. Zheng, X. Song, V. S. Battaglia, “Particles and Polymer Binder Interaction: A Controlling Factor in Lithium-Ion Electrode Performance”, J. Electrochem. Soc., 2012, 159: A214–A221.
(18) J. Cabana, H. H. Zheng, A. K. Shukla, C. J. Kim, V. S. Battaglia, M. Kunduraci, “Comparison of the Performance of LiNi1/2Mn3/2O4 with Different Microstructures”, J. Electrochem. Soc., 2011, 158: A997–A1004.
(19) X. Zhang, H. H. Zheng, V. S. Battaglia, R. L. Axelbaum, “Flame synthesis of 5V spinel-LiNi0.5Mn1.5O4 cathode-materials for lithium-ion rechargeable-batteries”, Proceedings of the Combustion Institute, 2011, 33:1867–1874.
(20) H. H. Zheng, P. Ridgway, X. Song, S. Xun, J. Chong, G. Liu, V. Battaglia, Comparison of cycling performance of lithium ion cell anode graphite, ECS Trans. 2011, 33: 91.
(21) X. Zhang, H. H. Zheng, V. S. Battaglia, R. L. Axelbaum, “Electrochemical Performance of Spinel LiMn2O4 Cathode Materials Made by Flame-Assisted Spray Technology”, J. Power Sources, 2011, 196: 3640–3645.
(22) J. Chong, S. Xun, H. H. Zheng, X. Song, G. Liu, V. S. Battaglia, A comparative study of polyacrylic acid and poly(vinylidene difluoride) binders for spherical natural graphite/LiFePO 4 electrodes and cells J. Power Sources, 196 (18):7707-7714, 2011
(23) G. Liu, S. Xun, N. Vukmirovic, X. Song, P. Olalde-Velasco, H. H. Zheng, V. S. Battaglia, L. Wang, W. Yang, “Polymers with Tailored Electronic Structure for High Capacity Lithium Battery Electrodes”, Adv. Mater., 2011, 23(40): 4679–4683.
(24) H. H. Zheng*, G. Liu, V. S. Battaaglia, “Film-Forming Properties of Propylene Carbonate in the Presence of a Quaternary Ammonium Ionic Liquid on Graphite Anode”, J. Phys. Chem. C., 2010, 114: 6182–6189.
(25) H. H. Zheng*, G. Liu, V. S. Battaaglia, “Cathode Performance as a Function of Inactive Material and Void Fractions”, J. Electrochem. Soc., 2010, 157: 1060–1066.
(26) Y. X. Zhang,H. H. Zheng*, G. Liu, et al., “Synthesis and Electrochemical Studies of Layered Spheric TiO2 through Low Temperature Solvothermal Method”, Electrochim. Acta, 2009, 54: 4079-4083.
(27) G. Liu, H. H. Zheng, S. Kim, Y. Deng, A. M. Minor, X. Song, V. S. Battaglia, “Effects of Various Conductive Additive and Polymeric Binder Contents on the Performance of a Lithium-Ion Composite Cathode”, J. Electrochem. Soc., 2008, 155: A887–A892.
(28) G. Liu, H. H. Zheng, A. S. Simens, A. M. Minor, V. S. Battaglia, “Optimization of Acetylene Black Conductive Additive and PVDF Composition for High-Power Rechargeable Lithium-Ion Cells”, J. Electrochem. Soc., 2007, 154: A1129–A1134.
(29) H. H. Zheng*, K. Jiang, Z. Ogumi, “Electrochemical intercalation of lithium into a natural graphite anode in quaternary ammonium- based ionic liquid electrolytes”, Carbon, 2006, 44: 203–210.
(30) H. H. Zheng*, B. Li, T. B. Fu, T. Abe, Z. Ogumi, “Compatibility of quaternary ammonium-based ionic liquid electrolytes with electrodes in lithium ion batteries”, Electrochim. Acta, 2006, 49: 1659–1667.
(31) H. H. Zheng*, H. C. Zhang, T. Abe, Z. Ogumi, “Temperature Effects on the Electrochemical Behavior of Spinel LiMn2O4 in Quaternary Ammonium- Based Ionic Liquid Electrolyte”, J. Phys. Chem. B, 2005, 109: 13676–13684.