职称:研究员
系所:射线应用研究所
办公室:校本部东区环化楼706室
电话:021-66137798
E-mail:bzhao@shu.edu.cn
个人简介
赵兵,博士,现任亚星221net研究员,亚星221net可持续能源研究院锂离子电池中心主任,可持续能源研究院燃料电池中心副主任。以第一作者或通讯作者在国际著名SCI期刊发表学术论文60余篇,国家发明专利授权30余项。曾获得国家自然科学基金、科技部、上海市科委、上海市教委等多次项目资助。目前已培养博士研究生3名,硕士研究生28名,其中2人获上海市优秀毕业生,3人获国家奖学金,3人获光华奖学金,5人获亚星221net优秀学生,5人获亚星221net优秀毕业生,并获得上海市陈嘉庚发明奖二等奖2项。
学术经历
曾就读于合肥工业大学复合材料专业本科、硕士,2000年获中国科学院固体物理研究所理学博士学位,2001-2002年清华大学物理系博士后。先后在中国科学院固体物理研究所、清华大学物理系应用超导研究中心、亚星221net工作。
研究方向
1.纳米材料(能源材料的设计合成、微结构、性能及其应用)
2.电化学(物理化学)
3.化学电源
4.锂离子电池
代表成果
[1] Li storage properties of disordered graphene nanosheets, Chemistry of Materials, 2009, 21, 3136–3142.(ESI高被引论文)
[2] Monolayer graphene/NiO nanosheets with two-dimension structure for supercapacitors. Journal of Materials Chemistry, 2011, 21, 18792–18798.(ESI高被引论文)
[3] Supercapacitor performances of thermally reduced graphene oxide. Journal of Power Sources, 2012, 198, 423–427.(ESI高被引论文)
[4] Few-layered SnS2 on graphene with expanded interlayer distance as high-rate lithium/sodium-ion battery anode materials, ACS Nano, 2019, 13(8), 9100–9111.
[5] Irradiated graphene loaded with SnO2 quantum dots for energy storage, ACS Nano, 2015, 9, 11351–11361.
[6] Insight on fractal assessment strategies for tin dioxide thin films, ACS Nano, 2010, 4, 1202–1208.
[7] Hierarchical self-assembly of microscale leaf-like CuO on graphene sheets for high-performance electrochemical capacitors. Journal of Materials Chemistry A, 2013, 1: 367–373.
[8] Stabilizing the reversible capacity of SnO2/graphene composites by Cu nanoparticles, Chemical Engineering Journal, 2019, 367, 45–54.
[9] Composition-dependent lithium storage performances of SnS/SnO2 heterostructures sandwiching between spherical graphene, Electrochimica Acta, 2019, 300, 253–262.
[10] In-situ solvothermal phosphorization from nano-sized tetragonal-Sn to rhombohedral-Sn4P3 embedded in hollow graphene sphere with high capacity and stability, Electrochimica Acta, 2019, 312, 263–271.
[11] In-situ lithiation synthesis of nano-sized lithium sulfide/graphene aerogel with covalent bond interaction for inhibiting the polysulfides shuttle of Li-S batteries, Electrochimica Acta, 2019, 312, 282–290.
[12] Sandwiched spherical tin dioxide/graphene with a three-dimensional interconnected closed pore structure for lithium storage, Nanoscale, 2018, 10, 16116–16126.
[13] In-situ sulfuration synthesis of sandwiched spherical SnS/sulfur-doped graphene composite with ultra-low sulfur content, Journal of Power Sources, 2018, 378, 81–89.
[14] One-step hydrothermal reduction synthesis of tiny Sn/SnO2 nanoparticles sandwiching between spherical graphene with excellent lithium storage cycling performances. Electrochimica Acta, 2018, 292, 72–80.
[15] Controlled scalable synthesis of yolk-shell structured large-size industrial silicon with interconnected carbon network for lithium storage, Electrochimica Acta, 2018, 283, 1702–1711.
[16] Enhancing lithium-ion batteries performance via electron-beam irradiation strategies: A case study of graphene aerogels loaded with SnO2 quantum dots, Electrochimica Acta, 2018, 281, 769–776.
[17] 3D interconnected spherical graphene framework/SnS nanocomposite for anode material with superior lithium storage performance: Complete reversibility of Li2S. ACS Applied Materials & Interfaces, 2017, 9(2), 1407–1415.
[18] Core-shell Li2S@Li3PS4 nanoparticles incorporated into graphene aerogel for lithium-sulfur batteries with low potential barrier. Journal of Power Sources, 2017, 353, 167–175
[19] Inhibiting the shuttle effect of Li–S battery with a graphene oxide coating separator: Performance improvement and mechanism study, Journal of Power Sources, 2017, 342(28), 929–938.
[20] Lithiation-assisted exfoliation and reduction of SnS2 to SnS decorated on lithium-integrated graphene for efficient energy storage, Nanoscale, 2017, 9, 17922–17932.
[21] Flexible of multiwalled carbon nanotubes/manganese dioxide nanoflake textiles for high-performance electrochemical capacitors. Electrochimica Acta, 2015, 153, 246–253.
[22] A facile hydrothermal synthesis of graphene porous NiO nanocomposite and its application in electrochemical capacitor. Electrochimica Acta, 2013, 91, 173–178.
[23] Graphene modified Li3V2(PO4)3 as a high-performance cathode material for lithium ion batteries. Electrochimica Acta 2012, 85, 377–383.
[24] Bivalent tin ion assisted reduction for preparing graphene/SnO2 composite with good cyclic performance and lithium storage capacity. Electrochimica Acta, 2011, 56, 7340–7346.
[25] Ordered CoO/CMK-3 nanocomposites as the anode materials for lithium ion batteries, Journal of Power Sources, 2010, 195, 2950–2955.
[26] Morphology and electrical properties of carbon coated LiFePO4 cathode materials, Journal of Power Sources, 2009, 189, 462–466.
科研项目
获国家自然科学基金、上海市节能减排重大专项、上海市自然科学基金、科技部中小企业创新基金、火炬计划、上海市教委等项目资助8项,与企业合作科研开发项目(横向)10余项。目前在研国家基金1项,重大横向项目2项。
获奖情况
2013年度上海市优秀技术带头人
2011年度上海市技术发明三等奖
2009年度中国国际工业博览会高校优秀展品二等奖
2007年度中国国际工业博览会高校优秀展品二等奖
2006年度上海市技术发明二等奖
教授课程
2015-2019年度:本科生核心通识课:环境与绿色发展
2016-2018年度:本科生研讨课:储能技术
招生方向
欢迎化工、材料、物理、化学专业考生报考。
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