汤禹
日期:2021-12-30 阅读次数: 作者: 来源:



姓名: 汤禹
性别:

职称: 副教授
学历: 博士
专业: 物理化学
电子邮件: yu.tang@fzu.edu.cn
研究方向: 多相催化,原位表征技术,单原子催化,甲烷转化,生物质转化


教育工作经历

2019–至今,澳门永利唯一官方网址,副教授,硕导,建立并负责分子催化与原位工况表征研究所

2016-2019,美国堪萨斯大学化学与石油工程系,博士

2009-2012,浙江大学化学系,理学硕士

2004-2008,浙江大学化学系,理学学士 


科研简介

研究方向:

1)单原子催化剂的设计、合成、表征和催化机理的研究;

2)用于碳基能源物质的化学转化的新型催化剂开发与基础科学研究;

3)原位工况条件下先进催化研究技术的开发。擅长近常压扫描隧道显微镜(NAP-STM),近常压光电子能谱(NAP-XPS)和X射线吸收谱(XAS)等技术,致力于解析多相催化中的基础科学问题与应用研究。

近年来发表科研论文50余篇,其中以第一作者、共同第一作者或通讯作者的身份在Nature Catalysis, Nature Energy, Nature Chemistry, Nature Communications, J. Am. Chem. Soc., Adv. Mater., Chem. Soc. Rev., Nano Lett., ACS Catal. 等杂志上发表论文,成果多次被美国化学会C&EN报道。论文被引用超过1900次,H-index为21。

ORCID: ORCID iD iconhttps://orcid.org/0000-0001-9435-9310

Web of Science ResearcherID: https://publons.com/researcher/AAT-3836-2020/

 

科研项目与人才计划

  • 国家自然科学基金,青年项目

  • 学院“旗山学者”

代表性论文

[1] George Yan#, Yu Tang#, Yuting Li#, Yixiao Li, Luan Nguyen, Tomohiro Sakata, Kotaro Higashi, Franklin Feng Tao, P. Sautet, Reaction product-driven restructuring and assisted stabilization of a highly dispersed Rh-on-ceria catalyst, Nature Catalysis, 5 (2022) 119-127.

[2] Y. Tang*, Y. Li, F. F. Tao*, Activation and catalytic transformation of methane under mild conditions, Chemical Society Reviews, 2022, 51, 376-423

[3] Y. Tang, V. Fung, X. Zhang, Y. Li, L. Nguyen, T. Sakata, K. Higashi, D.-E. Jiang, F.F. Tao, Single-Atom High-Temperature Catalysis on a Rh1O5 Cluster for Production of Syngas from Methane, Journal of the American Chemical Society, (2021), 143, 16566−16579

[4] L. Wu*, Z. Ren, Y. He, M. Yang, Y. Yu, Y. Liu, L. Tan, Y. Tang*, Atomically Dispersed Co2+ Sites Incorporated into a Silicalite-1 Zeolite Framework as a High-Performance and Coking-Resistant Catalyst for Propane Nonoxidative Dehydrogenation to Propylene, ACS Applied Materials & Interfaces, (2021), 48934–48948

[5] P. Wang, J. Yao, Q. Jiang, X. Gao, D. Lin, H. Yang, L. Wu, Y. Tang*, L. Tan*, Stabilizing the Isolated Pt Sites on PtGa/Al2O3 Catalyst via Silica Coating Layers for Propane Dehydrogenation at Low Temperature, Applied Catalysis B: Environmental, (2022), 120731.

[6] S. Zhang#, Y. Li#, Z. Wang#, Y. Tang#, X. Huang#, S.D. House, H. Huang, Y. Zhou, W. Shen, J. Yang, Coordination Number-Dependent Complete Oxidation of Methane on NiO Catalysts, ACS Catalysis, 11 (2021) 9837-9849.

[7] R. Li*, Z. Liu, Q.T. Trinh, Z. Miao, S. Chen, K. Qian, R.J. Wong, S. Xi, Y. Yan, A. Borgna, S. Liang, T. Wei, Y. Dai, P. Wang, Y. Tang*, X. Yan, T.S. Choksi*, W. Liu*, Strong Metal-Support Interaction for 2D Materials: Application in Noble Metal/TiB2 Heterointerfaces and their Enhanced Catalytic Performance for Formic Acid Dehydrogenation, Advanced Materials (2021), 2101536.

[8] Y. Tang, S. Zhang, T.B. Rawal, L. Nguyen, Y. Iwasawa, S.R. Acharya, J. Liu, S. Hong, T.S. Rahman, F. Tao, Atomic-Scale Structure and Catalysis on Positively Charged Bimetallic Sites for Generation of H2, Nano Letters, 20 (2020) 6255-6262.

[9] Y. Tang, Y. Wei, Z. Wang, S. Zhang, Y. Li, L. Nguyen, Y. Li, Y. Zhou, W. Shen, F.F. Tao, P. Hu, Synergy of Single-Atom Ni-1 and Ru-1 Sites on CeO2 for Dry Reforming of CH4, Journal of the American Chemical Society, 141 (2019) 7283-7293.

[10] Y. Tang, L. Ma, J. Dou, C.M. Andolina, Y. Li, H. Ma, S.D. House, X. Zhang, J. Yang, F. Tao, Transition of surface phase of cobalt oxide during CO oxidation, Physical Chemistry Chemical Physics, 20 (2018) 6440-6449.

[11] Y. Tang, Y. Li, V. Fung, D.-e. Jiang, W. Huang, S. Zhang, Y. Iwasawa, T. Sakata, N. Luan, X. Zhang, A.I. Frenkel, F. Tao, Single rhodium atoms anchored in micropores for efficient transformation of methane under mild conditions, Nature Communications, 9 (2018) 1231.

[12] Y. Chen#, B. deGlee#, Y. Tang#, Z. Wang, B. Zhao, Y. Wei, L. Zhang, S. Yoo, K. Pei, J.H. Kim, Y. Ding, P. Hu, F.F. Tao, M. Liu, A robust fuel cell operated on nearly dry methane at 500 degrees C enabled by synergistic thermal catalysis and electrocatalysis, Nature Energy, 3 (2018) 1042-1050.

[13] F. Tao*, Y. Tang*, HETEROGENEOUS CATALYSIS More than skimming the surface, Nature Chemistry, 8 (2016) 902-903.

[14] Y. Tang, N. Luan, Y. Li, N. Wang, F. Tao, Surface of a catalyst in a gas phase, Current Opinion in Chemical Engineering, 12 (2016) 52-61.

[15] Y. Tang, S. Xu, Y. Dai, X. Yan, R. Li, L. Xiao, J. Fan, Solid phase metallurgy strategy to sub-5 nm Au-Pd and Ni-Pd bimetallic nanoparticles with controlled redox properties, Chemical Communications, 50 (2014) 213-215.


学术交流

  • 第三届能源与环境催化会议,福建省福州市,2020-11,邀请报告

  • 中国化学会第32届学术年会,广东省珠海市,2021-4,口头报告

  • 第十八届全国青年催化学术会议,山西省太原市,2021-7,口头报告

  • Cell Symposia: Advancing Catalysis for C1 Chemistry, Dalian, 2021-7, Oral talk

  • 第21届全国分子筛学术大会,山东省青岛市,2021-9,口头报告

  • 第20届全国催化学术大会,湖北市武汉市,2021-10,口头报告



发明专利

  • 202110328034.3

  • 202110729451.9


教学工作

  • 2019年-至今,结构化学,化学基地班

  • 2021年-至今,材料物理化学,研究生课程


其他

  • 欢迎具有化学、应用化学、化学工程等相关专业背景的同学报考研究生。

  • 欢迎本科生同学参与科研训练项目(SRTP),科研训练与毕业设计。

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