教育与工作经历

2019–至今，福州大学化学学院，副教授，博士生导师，独立PI

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）用于低碳烷烃、生物质转化、环境催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100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 Communications (2), J. Am. Chem. Soc. (3), Adv. Mater., Chem. Soc. Rev., Nano Lett., Chinese Journal of Catalysis, ACS Catal. (5), J. Catal. (5), Applied Catalysis B (2) 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5500次，H-index为32。

ORCID: https://orcid.org/0000-0001-9435-9310

Homepage: https://www.x-mol.com/groups/yutang/publications

科研项目

• 国家自然科学基金，面上项目，主持，2025-2028，在研

• 福建省自然科学基金，面上项目，主持，2024-2027，在研

• 国家自然科学基金，青年基金（C类），主持，2020-2022，结题

• 国家自然科学基金，联合基金（重点），参与方负责人，2020-2023，结题

• 福建省自然科学基金，面上项目，主持，2020-2023，结题

• 福州大学“旗山学者”（海外项目），科研启动，主持，2020-2024，结题

  
  

代表性论文（Selected Publication）

    Full publication list avaliable at homepage: https://www.x-mol.com/groups/yutang/publications

╪: equal contribution, *: corresponding author

[1] G. Yan,╪ Y. Tang,╪ Y. Li,╪ Y. Li, L. Nguyen, T. Sakata, K. Higashi, F.F. 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. 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 °C enabled by synergistic thermal catalysis and electrocatalysis, Nature Energy, 3 (2018) 1042-1050.

[3] Y. Tang,╪ G. Yan,╪ S. Zhang,╪ Y. Li, L. Nguyen, Y. Iwasawa, T. Sakata, C. Andolina, J.C. Yang, P. Sautet,* Franklin Tao,* Turning on Low-Temperature Catalytic Conversion of Biomass Derivatives through Teaming Pd1 and Mo1 Single-Atom Sites, Journal of the American Chemical Society, 146 (2024) 32366-32382.

[4] 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, 143 (2021) 16566-16579.

[5] 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 Ni₁ and Ru₁ Sites on CeO₂ for Dry Reforming of CH₄, Journal of the American Chemical Society, 141 (2019) 7283-7293.

[6] G. Zhang,╪ F. Liu,╪ S. Zhong,╪ F. Liu,* Q. Zhu, Y. Tang,* J. Tan, A. Zheng,* L. Jiang,* F.-S. Xiao, Surpassing stoichiometric limitation for supra-multi-molar adsorption and separation of acid gases, Nature Communications, 16 (2025) 2861.

[7] 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.

[8] 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, 33 (2021) 202101536.

[9] Y. Li,╪ Y. Tang,╪ F. Tao,* C-N Coupling through Hydroaminoalkylation on a Single-Atom Rh Heterogeneous Catalyst, Angewandte Chemie-International Edition, 62 (2023) 202214332.

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

[11]Yuanjie Xu, Run Hou, Kunxiang Chi, Bo Liu, Zemin An, Lizhi Wu, Li Tan, Xupeng Zong, Yihu Dai, Zailai Xie, and Yu Tang*, A water-resistant and stable Pd-Co₃O₄ catalytic interface for complete methane oxidation with insights on active structures and reaction pathway, Chinese Journal of Catalysis, accepted

[12] Y. Xu, Z. An, Y. Tang,* Recent progress in exploring heterogeneous catalyst surface chemistry with near ambient pressure XPS, Science China Chemistry, (2025) 1-25.

[13] Y. Xu, J. Yao, H. Lin, Q. Lv, B. Liu, L. Wu, L. Tan, Y. Dai, X. Zong, Y. Tang,* Functional CeO x Stabilized Metallic Ni Catalyst Supported on Boron Nitride for Durable Partial Oxidation of Methane to Syngas at High Temperature, ACS Catalysis, 14 (2024) 11845-11856.

[14] Y. Tang, X. Zong, L. Nguyen, F. Tao,* Single-Atom Catalyst Restructuring during Catalytic Reforming of CH4 by CO2, ACS Catalysis, 14 (2024) 18679-18689.

[15] H. Guo, J. Zhao, Y. Chen, X. Lu, Y. Yang, C. Ding, L. Wu, L. Tan, J. Long, G. Yang, Y. Tang,* N. Tsubaki,* X. Gu,* Mechanistic Insights into Hydrodeoxygenation of Lignin Derivatives over Ni Single Atoms Supported on Mo₂C, ACS Catalysis, 14 (2024) 703-717.

[16] M. Li,╪ C. Zhang,╪ Y. Tang,╪ Q. Chen, W. Li, Z. Han, S. Chen, C. Lv, Y. Yan, Y. Zhang, W. Zheng, P. Wang, X. Guo,* W. Ding, Environment Molecules Boost the Chemoselective Hydrogenation of Nitroarenes on Cobalt Single-Atom Catalysts, ACS Catalysis, 12 (2022) 11960-11973.

[17] 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.

[18] B. Liu, C. Xiang, J. Yang, P. Sun, Y. Yang, Y. Xu, K. Liu, L. Wu, L. Tan, Y. Tang,* The promoting role of carbon monoxide in mild conversion of methane to acetic acid on atomically dispersed Ir catalyst anchored in ZSM-5, Journal of Catalysis, (2024) 115683.

[19] P. Wang,╪ R. Chen,╪ H. Liao,╪ H. Lin, Y. Xu, B. Liu, X. Zong, Y. Dai, L. Wu, L. Tan, Z. Xie, Y. Tang,* Zinc cations incorporated in Silicalite-1 zeolite assist in anchoring atomically dispersed platinum catalyst for boosted and robust propane dehydrogenation, Journal of Catalysis, (2024) 115647.

[20] Y. Xu, R. Chen, H. Lin, Q. Lv, B. Liu, L. Wu, L. Tan, Y. Dai, X. Zong, Y. Tang,* Constructing the Ni-O-Ce interface to enhance the activity and stability for partial oxidation of methane to syngas under high temperatures, Journal of Catalysis, 435 (2024) 115545.

[21] Z. An, N. Ma, Y. Xu, H. Yang, H. Zhao, L. Wu, L. Tan, C. Zou, F. Meng, B. Zhang, X. Wang, Y. Tang,* Shape dependency of CO₂ hydrogenation on ceria supported singly dispersed Ru catalysts, Journal of Catalysis, 429 (2024) 115245.

[22] Y. Xu, Z. An, X. Yu, J. Yao, Q. Lv, H. Yang, Z. Lv, H. Guo, Q. Jiang, W. Liu, L. Wu, L. Tan, Y. Dai, Y. Tang,* Enhanced catalytic stability and structural evolution of Rh-BN interface in dry reforming of methane under intensified CO2 partial pressure, Journal of Catalysis, 427 (2023) 115094.

[23] K. Xu, Y. Chen, H. Yang, Y. Gan, L. Wu, L. Tan, Y. Dai, Y. Tang,* Partial hydrogenation of anisole to cyclohexanone in water medium catalyzed by atomically dispersed Pd anchored in the micropores of zeolite, Applied Catalysis B-Environment and Energy, 341 (2024) 123244.

[24] 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, 300 (2022) 120731.

[25] 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.

[26] L. Wu,* Z. Ren, Y. He, M. Yang, Y. Yu, Y. Liu, L. Tan, Y. Tang,* Atomically Dispersed Co<SUP>2+</SUP> 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, 13 (2021) 48934-48948.

[27] P. Wang, M. Yang, H. Liao, K. Xu, X. Zong, Z. Xie, H. Zhao, Y. Xu, H. Yang, Y. Gan, Y. Fang, L. Wu, Y. Tang,* L. Tan,* Restructured zeolites anchoring singly dispersed bimetallic platinum and zinc catalysts for propane dehydrogenation, Cell Reports Physical Science, 4 (2023) 101311.

[28] H. Guo,╪ Y. Chen,╪ J. Yang, L. Wu, L. Tan, G. Yang, Y. Tang,* N. Tsubaki,* X. Gu,* Water treatment induced formation of surface oxide layers of Pd/α-MoC catalyst to enhance the selective hydrodeoxygenation of vanillin, Chemical Engineering Journal, 493 (2024) 152507.

[29] H. Yang, R. Yu, Y. Fang, J. Yao, Y. Gan, J. Chen, H. Deng, X. Gao, X. Zong, J. Wang, L. Wu, L. Tan,* Y. Tang,* Singly dispersed Ir₁Ti₃ bimetallic site for partial oxidation of methane at high temperature, Applied Surface Science, 599 (2022) 153863.

[30] 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.

学术专著

[1] F. Tao; Y. Tang ; Springer Handbook of Advanced Catalyst Characterization,Springer Nature, 2023, Chapter 17.

学术兼职

• 《Catalysis Communications》，青年编委（2022-2024），客座编辑（2023-2024）

• 《Applied Catalysis O: Open》，青年编委（2024-至今）

  
  

发明专利

[1] 汤禹，徐开阳，安泽民，单原子钯／分子筛催化剂及其制备与在生物质分子选择性加氢制备酮中的应用，专利授权，专利号：ZL 2021103280343，授权号：CN113019435B

教学工作

• 2019年-至今，结构化学，化学专业

• 2025年-至今，晶体化学，化学专业

• 2021年-至今，材料物理化学，研究生课程

• 2023年-至今，功能材料研究进展，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。

• 2025年硕士招生专业：物理化学，应用化学，材料化学；2025年博士计划招生专业：物理化学。

• 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。