钮东方
发布时间:2016-04-20   访问次数:11030   作者:

 



姓名:钮东方              职称:副教授

电话:021-64250914            邮件:dfniu@ecust.edu.cn

联系地址:新葡的京集团4321徐汇校区实验161105


  • 教育背景:

    2000.9-2004.6 江苏师范大学化学系,化学专业,学士学位

    2005.9-2010.6 华东师范大学化学系,物理化学专业,博士学位

    2008.9-2009.8 美国Washington University in St. Louis化学系,博士联合培养

  • 工作经历:

    2017.11-2018.11 美国University of California, Irvine化学系,访问学者

    2010.9-2016.8 新葡的京集团4321,讲师

    2016.9-至今  新葡的京集团4321,副教授


  • 研究方向:

能源储存与转化过程电催化剂的设计及其性能研究,具体包括CO2电还原反应(CO2RR),锂硫电池隔膜改性等;

电化学法合成高附加值化学品


  • 近三年发表文章(15篇)

  1. A highly conductive COF@CNT electrocatalyst boosting polysulfide conversion for Li−S chemistry, ACS Energy Lett.,2021, 6, 3053-3062.

  2. A facile electrochemical strategy for engineering sulfur deficiencies of CdS nanosheets to promote the catalytic conversion of polysulfides for lithium–sulfur batteries,Sustain. Energ. Fuels, 2021, 5, 678–686.

  3. A synergistic strategy with 3D highly conductive carbon matrix-decorated with low loading of CdS quantum dots as a sulfur host for advanced Li@S batteries, ChemElectroChem, 2021, 8, 1642–1652

  4. Polyacrylamide-mediated silver nanoparticles for selectively enhancing electroreduction of CO2 towards CO in Water, ChemSusChem,2021, 14, 721-729.

  5. Pyridine grafted on SnO2-loaded carbon nanotubes acting as cocatalyst for highly efficient electroreduction of CO2, ChemSusChem,2021, 14, 2769-2779.

  6. Donor dominated triazine-based microporous polymer as a polysulfide immobilizer and catalyst for high-performance lithium-sulfur batteries, Chem. Eng. J,2020, 392, 123694.

  7. Trimming the π bridge of microporous frameworks for bidentate anchoring of polysulfides to stabilize lithium–sulfur batteries, J. Mater. Chem. A, 2020, 8, 19001–19010.

  8. Infixing NiS2 nanospheres into a three-dimensional rGO/CNTs-Li carbon composite as superior electrocatalyst for high-performance Li@S batteries, ChemNanoMat, 2020, 6, 976–983.

  9. Chainmail catalyst of Fe3O4@C/CNTO-modified celgard separator with low metal loading for high-performance lithium–sulfur batteries, ChemistrySelect, 2020, 5, 3757–3762.

  10. Roles of oxygen functional groups in carbon nanotubes-supported Ag catalysts for electrochemical conversion of CO2 to CO, ChemElectroChem, 2020, 7, 1869–1876.

  11. Enhancing CO2 electroreduction with Au/pyridine/carbon nanotubes hybrid structures.ChemSusChem, 2019,12, 1724-1731.

  12. Duplex trapping and charge transfer with polysulfides by a diketopyrrolopyrrole-based organic framework for high-performance lithium–sulfur batteries. J. Mater. Chem. A, 2019, 7, 18100-18108.

  13. Enhancing CO2 electroreduction on nanoporous silver electrode in the presence of halides. Electrochim. Acta, 2019, 313, 561-569.

  14. Aryl modification of diketopyrrolopyrrole-based quaternary ammonium salts and their applications in copper electrodeposition.Dyes Pigments, 2019, 170, 107559.

  15. SDS-modified nanoporous silver as an efficient electrocatalyst for selectively converting CO2 to CO in aqueous solution. Chin. J. Chem., 2019, 37, 337-341.


  • 在研项目

  1. 国家自然科学基金面上项目:“含氮有机小分子-纳米金属-碳载体三维复合结构的构筑及其电催化二氧化碳转化为低碳燃料的性能研究”,项目负责人

  2. 上海氯碱化工股份有限公司委托开发项目:“离子膜电解阳极材料表面改性研究”,项目负责人

  3. 科技部国家重点研发计划:“基于卤素离子的间接电催化氧化合成关键技术及其示范”,主要参与人