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中国科学技术大学化学系导师教师师资介绍简介-江海龙(无机化学)

本站小编 Free考研考试/2021-04-22




姓 名:江海龙 教授
电 话:
电子邮件:jianglab@ustc.edu.cn
传 真:
主 页:http://staff.ustc.edu.cn/~jianglab/





个人简历
江海龙,1981年生,中国科学技术大学教授、博士生导师,国家****基金获得者,英国皇家化学会会士(FRSC),入选国家****领军人才和科技部中青年科技创新领军人才。2008年博士毕业于中科院福建物质结构研究所,随后在日本国立产业技术综合研究所和美国德克萨斯农工大学从事科学研究。2013年加入中国科学技术大学化学系,现任化学系执行主任。2017-2019年连续入选科睿唯安(原汤森路透)全球高被引科学家。长期从事晶态多孔功能材料的设计、合成与催化功能探索等方面的相关研究,已在国际重要SCI期刊上发表论文140余篇,其中以第一或通讯作者发表J. Am. Chem. Soc.(13篇),Angew. Chem.(11篇),Chem(3篇),Nat. Commun.,Adv. Mater.(5篇),Natl. Sci. Rev.,Acc. Chem. Res.,Chem. Soc. Rev.(2篇),Coord. Chem. Rev.(4篇),Mater. Today等高水平论文。论文被引用约20000次(H指数69),有51篇论文被列为ESI高被引论文。撰写书章一章。担任中国化学会晶体化学专业委员会委员、中国感光学会光催化专业委员会委员等;担任EnergyChem(Elsevier)、Materials(MDPI)、化学学报、Scientific Reports(NPG)、无机化学学报等期刊编委和顾问编委等。
主要研究方向
本课题组以配位化学为基础,致力于多孔金属有机骨架材料(Metal-Organic Frameworks, MOFs)及其纳米复合材料与衍生材料的设计合成与功能应用研究。本课题组的研究属于交叉学科,内容涉及无机配位化学、晶体工程学、材料化学、纳米科技以及催化化学等多个领域。主要研究方向包括:
(1)催化功能导向的稳定MOFs:设计、合成、修饰及催化性能研究;
(2) MOFs基纳米复合材料:理性构筑及其催化功能探索,特别是在有机反应多相催化及光、电催化中的应用研究;
(3) CO2的选择性捕集与转化。
获奖及荣誉
2008年,中国科学院优秀博士毕业生
2008年,中国科学院朱李月华优秀博士生奖
2009年,日本学术振兴会(JSPS)外国人特别研究员奖学金
2013年,安徽省特聘专家
2013年,国家高层次人才计划青年项目
2017年,国家自然科学基金委****基金
2017年,中国科大海外校友基金会青年教师事业奖
2017年,入选科睿唯安(原汤森路透)全球高被引科学家(化学)
2017年,入选爱思唯尔(Elsevier)中国高被引****榜单
2018年,《化学学报》2016年最有影响力论文奖
2018年,太阳能光化学与光催化研究领域优秀青年奖(中国可再生能源学会光化学专委会)
2018年,卢嘉锡优秀导师奖(福建卢嘉锡科学教育基金会)
2018年,入选科睿唯安(原汤森路透)全球高被引科学家(化学)
2018年,入选爱思唯尔(Elsevier)中国高被引****榜单
2018年,入选科技部创新人才推进计划(中青年科技创新领军人才)
2019年,入选国家****科技创新领军人才
2019年,中国科学院优秀导师奖
2019年,入选科睿唯安(原汤森路透)全球高被引科学家(化学)

文章及专著
(26) Regulating Coordination Environment of Single-Atom Ni Electrocatalysts Templated by MOF for Boosting CO2 Reduction
Y.-N. Gong#, L. Jiao#, Y. Qian, C.-Y. Pan*, L. Zheng, X. Cai, B. Liu*, S.-H. Yu, H.-L. Jiang*
Angew. Chem. Int. Ed.2020, 59, 2705.
(25) Encapsulating Soluble Active Species into Hollow Crystalline Porous Capsules beyond Integration of Homogeneous and Heterogeneous Catalysis
G. Cai, M. Ding, Q. Wu, H.-L. Jiang*
Natl. Sci. Rev.2020, 7, 37.
(24) Turning on visible-light photocatalytic C-H oxidation over metal-organic frameworks by introducing metal-to-cluster charge transfer
C. Xu#, Y. Pan#, G. Wan, H. Liu, L. Wang, H. Zhou, S.-H. Yu, H.-L. Jiang*
J. Am. Chem. Soc.2019, 141, 19110.
(23) Solar-Powered Artificial Photosynthesis Coupled with Organic Synthesis
H. Liu, H.-L. Jiang*
Chem2019, 5, 2508.
(22) Location determination of metal nanoparticles relative to a metal-organic framework
Y.-Z. Chen, B. Gu, T. Uchida, J. Liu, X. Liu, B.-J. Ye, Q. Xu, H.-L. Jiang*
Nat. Commun.2019, 10, 3462.
(21) Switching on Photocatalysis of Metal–Organic Frameworks by Engineering Structural Defects
X. Ma#, L. Wang#, Q. Zhang*, H.-L. Jiang*
Angew. Chem. Int. Ed.2019, 58, 12175-12179.
(20) Boosting Electrocatalytic Hydrogen Evolution over Metal-Organic Frameworks by Plasmon-Induced Hot Electron Injection
S.-S. Wang#, L. Jiao#, Y. Qian, W.-C. Hu, G.-Y. Xu, C. Wang*, H.-L. Jiang*
Angew. Chem. Int. Ed.2019, 58, 10713-10717.
(19) Metal-Organic Framework-derived Hollow N-doped Porous Carbon with Ultrahigh Concentration of Single Zn Atoms for Efficient CO2 Conversion
Q. Yang, C.-C. Yang, C.-H. Lin, H.-L. Jiang*
Angew. Chem. Int. Ed.2019, 58, 3511-3515.
(18) Metal-Organic Framework-based Single-Atom Catalysts for Energy Applications
L. Jiao, H.-L. Jiang*
Chem2019, 5, 786-804.
(17) From MOFs to Single Fe Atoms Implanted N-doped Porous Carbons: Efficient Oxygen Reduction in Both Alkaline and Acidic Media
L. Jiao#, G. Wan#, R. Zhang, H. Zhou, S.-H. Yu, H.-L. Jiang*
Angew. Chem. Int. Ed.2018, 57, 8525-8529.
(16) Photocatalytic Hydrogen Production Coupled with Selective Benzylamine Oxidation over MOF Composites
H. Liu#, C. Xu#, D. Li, H.-L. Jiang*
Angew. Chem. Int. Ed.2018, 57, 5379-5383.
(15) Integration of Plasmonic Effects and Schottky Junctions into Metal-Organic Framework Composites: Steering Charge Flow for Enhanced Visible-Light Photocatalysis
J.-D. Xiao, L. Han, J. Luo, S.-H. Yu, H.-L. Jiang*
Angew. Chem. Int. Ed.2018, 57, 1103-1107.
(14) From UV to Near-Infrared Light-Responsive Metal-Organic Framework Composites: Plasmon and Upconversion Enhanced Photocatalysis
D. Li, S.-H. Yu, H.-L. Jiang*
Adv. Mater.2018, 30, **.
(13) Single Pt Atoms Confined into a Metal-Organic Framework for Efficient Photocatalysis
X. Fang#, Q. Shang#, Y. Wang#, L. Jiao, T. Yao, Y. Li, Q. Zhang, Y. Luo, H.-L. Jiang*
Adv. Mater.2018, 30, **.
(12) Metal-Organic Frameworks as Platforms for Catalytic Applications
L. Jiao#, Y. Wang#, H.-L. Jiang*, Q. Xu*
Adv. Mater.2018, 30, **.
(11) Controlled Intercalation and Chemical Exfoliation of Layered Metal-Organic Frameworks using A Chemically Labile Intercalating Agent
Y. Ding, Y.-P. Chen, X. Zhang, L. Chen, Z. Dong, H.-L. Jiang*, H. Xu*, H.-C. Zhou*
J. Am. Chem. Soc.2017, 139, 9136-9139.
(10) Template-Directed Growth of Well-Aligned MOF Arrays and Derived Self-Supporting Electrodes for Water Splitting
G. Cai#, W. Zhang#, L. Jiao, S.-H. Yu*, H.-L. Jiang*
Chem(Cell Press) 2017, 2, 791-802.
(9) Singlet Oxygen-Engaged Selective Photo-oxidation over Pt Nanocrystals/Porphyrinic MOF: The Roles of Photothermal Effect and Pt Electronic State
Y.-Z. Chen, Z. U. Wang, H. Wang, J. Lu, S.-H. Yu, H.-L. Jiang*
J. Am. Chem. Soc. 2017, 139, 2035-2044.
(8) A Modulator-Induced Defect-Formation Strategy to Hierarchically Porous Metal-Organic Frameworks with High Stability
G. Cai, H.-L. Jiang*
Angew. Chem. Int. Ed. 2017, 56, 563-567.
(7) Boosting Photocatalytic Hydrogen Production of a Metal–Organic Framework Decorated with Platinum Nanoparticles: The Platinum Location Matters
J.-D. Xiao#, Q. Shang#, Y. Xiong, Q. Zhang*, Y. Luo, S.-H. Yu, H.-L. Jiang*
Angew. Chem. Int. Ed.2016, 55, 9389-9393.
(6) Polydimethylsiloxane Coating for A Palladium/MOF Composite: Highly Improved Catalytic Performance by Surface Hydrophobization
G. Huang, Q. Yang, Q. Xu, S.-H. Yu, H.-L. Jiang*
Angew. Chem. Int. Ed. 2016, 55, 7379-7383.
(5) Seed-Mediated Synthesis of Metal-Organic Frameworks
H.-Q. Xu#, K. Wang#, M. Ding, D. Feng, H.-L. Jiang*,H.-C. Zhou*
J. Am. Chem. Soc.2016, 138, 5316-5320.
(4) Pd Nanocubes@ZIF-8: Integration of Plasmon-Driven Photothermal Conversion with a Metal-Organic Framework for Efficient and Selective Catalysis
Q. Yang, Q. Xu, S.-H. Yu, H.-L. Jiang*
Angew. Chem. Int. Ed. 2016, 55, 3685-3689.
(3) From Bimetallic Metal-Organic Framework to Porous Carbon: High Surface Area and Multicomponent Active Dopants for Excellent Electrocatalysis
Y.-Z. Chen#, C. Wang#, Z.-Y. Wu, Y. Xiong*, Q. Xu, S.-H. Yu, H.-L. Jiang*
Adv. Mater.2015, 27, 5010-5016.
(2) Visible-Light Photoreduction of CO2 in A Metal-Organic Framework: Boosting Electron-Hole Separation via Electron Trap States
H.-Q. Xu#, J. Hu#, D. Wang, Z. Li, Q. Zhang*, Y. Luo, S.-H. Yu, H.-L. Jiang*
J. Am. Chem. Soc.2015, 137, 13440-13443.
(1) A Facile and General Coating Approach to Moisture/Water-Resistant Metal-Organic Frameworks with Intact Porosity
W. Zhang#, Y. Hu#, J. Ge, H.-L. Jiang*,S.-H. Yu*
J. Am. Chem. Soc. 2014, 136, 16978-16981.





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