姓　　名： 余爱水
地　　址： 上海市淞沪路2205号复旦大学先进材料楼225室
邮　　编： 200438
电　　话：
传　　真：
电子邮件： asyu@fudan.edu.cn
课题组主页： http://www.chemistry.fudan.edu.cn/Data/View/1084

教育与科研经历
1983年9月至1987年7月 复旦大学，获得学士学位
1987年9月至1990年7月 复旦大学，获得硕士学位
1990年9月至1993年7月 复旦大学，获得博士学位
1993年8月至1995年9月 复旦大学化学系，讲师
1995年10月至1997年6月 日本岩手大学，外国人研究员
1997年7月至1999年6月 新加坡材料工程研究院，研究人员
1999年7月至2000年12月 美国University of Oklahoma, Research Associate
2001年1月至2006年10月 美国Excellatron Solid State LLC, Senior Research Scientist
2006年10月至现在，复旦大学化学系，教授
研究方向
新型电化学储能体系研究
高能量密度电池和材料
电极/电解质界面
电池和电极老化机制研究
在研科研项目
973课题：介孔体系的能量储存机理及器件组装
973课题：纳米高效双功能电催化剂制备及催化机理研究
国家自然科学基金面上项目：二次锂空气电池双功能催化剂作用机制研究
企业合作项目：高能量密度锂离子电池材料及电解液研发
获奖情况
2014年赢创优秀科学家奖
主要学术和社会兼职
中国电池工业协会常务理事
代表性论文
[1] A polydopamine coating ultralight graphene matrix as a highly effective polysulfide absorbent for high-energy Li-S batteries，Renewable Energy 96 (2016) 333-340
[2] Electrochemical surface modification on CuPdAu/C with extraordinary behavior toward formic acid/formate oxidation，International Journal of Hydrogen Energy, 2016, 1-7
[3] Enhanced electrochemical performance of Li1.2Mn0.54Ni0.13Co0.13O2 cathode with an ionic conductive LiVO3 coating layer，ACS Sustainable Chemistry & Engineering，2016, 4, 255?263
[4] Sea-Urchin-like Cobalt Oxide Grown on Nickel Foam as a Carbon-Free Electrode for Lithium?Oxygen Batteries，ACS Sustainable Chemistry & Engineering, 2015, 3, 903?908
[5] Gassing behavior of Li4Ti5O12-based batteries with different types of electrolyte，Journal of Power Sources 286 (2015) 380-387
[6] Surface phase transformation and CaF2 coating for enhanced electrochemical performance of Li-rich Mn-based cathodes，Electrochimica Acta 163 (2015) 82–92
[7] Synthesis and effect of electrode heat-treatment on the superior lithium storage performance of Co3O4 nanoparticles，Journal of Power Sources, 273 (2015) 894–903
[8] Molybdenum doped titanium dioxide and its superior lithium storage performance，Journal of Physical Chemistry C, 2014,118(44), 25300–25309
[9] Three-dimensional ?ower-shaped activated porous carbon/sulfur composites as cathode materials for lithium-sulfur batteries，ACS Sustainable Chemistry & Engineering, 2014, 2, 2442-2447
[10] Facile synthesis of trimetallic Cu1Au0.15Pd1.5/C catalyst for ethanol oxidation with superior activity and stability，Journal of Materials Chemistry A, 2014, 2, 16378-16380
[11] Carbon-free (Co, Mn)3O4 nanowires@Ni electrodes for Lithium-oxygen batteries，Nanoscale, 6(15), 9043-9049, 2014
[12] Binder-free phenyl sulfonated graphene/sulfur electrodes with excellent cyclability for lithium sulfur batteries，Journal of Materials Chemistry A, 2014, 2 (14), 5117 - 5123
[13] Hierarchical hollow Fe2O3 micro-flowers composed of porous nanosheets as high performance anodes for lithium-ion batteries，RSC Advances, 2013, 3, 20639-20646
[14] Binder-free nitrogen-doped carbon nanotubes electrodes for lithium-oxygen batteries，Journal of Power Sources 242 (2013) 855-859
[15] Carbon coated TiO2-SiO2 nanocomposites with high grain boundary density as anode materials for lithium-ion batteries，Journal of Materials Chemistry A, 2013, 1, 7360–7369
[16] Fabrication and electrochemical properties of Si/TiO2 nanowire array composites as lithium ion battery anodes，Journal of Power Sources, 238 (2013) 165-172
[17] Mesoporous Fe2O3 nanoparticles as high performance anode materials for lithium-ion batteries，Electrochemistry Communications, 29 (2013) 17-20
[18] Hierarchically porous honeycomb-like carbon as a lithium-oxygen electrode，Journal of Materials Chemistry A, 2013, 1 (4), 1239 - 1245
[19] Lysine-assisted hydrothermal synthesis of hierarchically porous Fe2O3 microspheres as anode materials for lithium-ion batteries, Journal of Power Sources 222 (2013) 59-65
[20] Polyaniline membranes as waterproof barriers for lithium air batteries，Electrochimica Acta, 78 (2012) 195–199