孙世刚

最新更新日期:2018-5-31 11:07:54     览次数:64896次     
中国科学院院士
教士生导师
电:(0592)2180181 (验室)
传真:(0592)2180181
电邮箱:sgsun@xmu.edu.cn
网站: http://www.sungroup.ac/
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个人简:
法国国家士(巴居里大学,1986)
学士(门大学,1982)
士(1986-1987,法国科研中心界电化学研究所)
国际电化学会会士
英国皇家化学会会士
国家出年科学基金国家自然科学奖二等奖教育部自然科学奖一等奖国际电化学会Brian Conway奖章中法化学讲座奖和中国电化学贡献奖;被评为全国优秀科技工作者全国模范教师和全国优秀士学论文指导教师。
任固体表物化学国家点验室学术委员会主任,中国化学会副秘书长,973计划能科学领域专家咨询组员。任国际Electrochimica Acta副主编J. Electroanal. Chem.ACS Energy Letters和国内《应用化学》编委,《物化学学报》《光谱学光谱分》《化学学报》和《化学教育》副主编《电化学》主编。
研究兴趣:
电催化表界过程,能电化学(燃料电池,锂离电池),纳米料电化学
近期主代表论著:

Group Members 
Professor Yan-Xiai Jiang (姜艳),Professor Ling Huang (黄令), Professor Zhi-You Zhou (周志有), Professor Hong-Gang Liao (廖洪钢), Professor Na Tian (田娜),Professor Jun-Tao Li (涛),Senior Engineer(甄春花), Engineer (黄蕊)  

Selected Publications

1.  Constructing canopy-shaped molecular architectures to create local Pt surface sites with high tolerance to H2S and CO for hydrogen electrooxidation, Energy Environ. Sci., 2018, 11, 166-171.

2.  Fluorescence enhancement mediated by high-index-faceted Pt nanocrystals: roles of crystal structures, Chem. Commun., 2018,54, 2016-2019.

3.  Engineering phase and surface composition of Pt3Co nanocatalysts: A strategy for enhancing CO tolerance, Nano Energy,2017, 34, 224-232.

4.  Water Soluble Binder, an Electrochemical Performance Booster for Electrode Materials with High Energy Density, Adv. Energy. Mater,2017,24,1701185.

5. Octahedral PtCu alloy nanocrystals with high performance for oxygen reduction reaction and their enhanced stability by trace Au, Nano Energy,2017, 33, 65-71. Nano Energy, 2017,33,65-71.

6.  Cu overlayers on tetrahexahedral Pd nanocrystals with high-index facets for CO2 electroreduction to alcohols, Chem. Commun., 2017,53, 8085-8088.

7.  Synthesis-cum-assembly toward hierarchical nanoarchitectures, Coordination Chemistry Reviews, 2017,352,291-305.

8. Modeling Fe/N/C Catalysts in Monolayer Graphene, Acs Catalysis, 2017, 7, 139−145.

9.  Electrochemically Seed-Mediated Synthesis of Sub-10 nm Tetrahexahedral Pt Nanocrystals Supported on Graphene with Improved Catalytic Performance, J. Am. Chem. Soc., 2016, 138 (18), 753–5756.

10. Layered/spinel heterostructured Li-rich materials synthesized by a one-step solvothermal strategy with enhanced electrochemical performance for Li-ion batteries, Journal of Materials Chemistry A, 2016,4, 257-263.

11.  S-Doping of an Fe/N/C ORR Catalyst for Polymer Electrolyte Membrane Fuel Cells with High Power Density, Angew. Chem. Int. Ed., 2015, 54, 9907 –9910.

12.  A Robust Ion-Conductive Biopolymer as a Binder for Si Anodes of Lithium-Ion Batteries, Adv. Func. Mater, 2015, 25(23), 3599-3605.

13.  Phenylenediamine-Based FeNx/C Catalyst with High Activity for Oxygen Reduction in Acid Medium and Its Active-Site Probing, J. Am. Chem. Soc., 2014, 136 (31): 10882–10885.

14. Electrochemical Synthesis of Tetrahexahedral Rhodium Nanocrystals with Extraordinarily High Surface Energy and High Electrocatalytic Activity, Angew. Chem. Int. Ed., 2014, 126, 5197-5201.

15. Synthesis of Convex Hexoctahedral Pt Micro/Nanocrystals with High-2 Index Facets and Electrochemistry-Mediated Shape Evolution, J. Am. Chem. Soc., 2013, 135, 18754-18757.

16.  Electrochemical Milling and Faceting: Size Reduction and Catalytic Activation of Palladium Nanoparticles, Angew. Chem. Int. Ed., 2012, 51, 8500-8504.

17.  Significantly Enhancing Catalytic Activity of Tetrahexahedral Pt Nanocrystals by Bi Adatom Decoration, J. Am. Chem. Soc., 2011, 133, 12930–12933.

18. Crystal Habit-Tuned Nanoplate Material of Li[Li1/3–2x/3NixMn2/3–x/3]O2 for High-Rate Performance Lithium-Ion Batteries, Adv. Mater., 2010, 22, 4364-4367.

19.  High-Index Faceted Platinum Nanocrystals Supported on Carbon Black as Highly Efficient Catalysts for Ethanol Electrooxidation, Angew. Chem. Int. Ed., 2010, 49: 411-414.

20.  Synthesis of Tetrahexahedral Platinum Nanocrystals with High-Index Facets and High Electro-Oxidation Activity, Science, 2007: 316 (No.5825): 732-735.



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