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史文颉 副研究员

   

   Wen-Jie Shi


Affiliation

Insititute for New Energy Materials and Low Carbon Technologies Tianjin University of Technology, Tianjin 300384, China

E-mail: wjshi@email.tjut.edu.cn


Research Interest

Low-dimensional framework compound materials for energy catalysis


Education

July 2015  B. Sc.  Gannan Normal University

July 2021  Ph. D.  Xiamen University

September 2019 March 2021 Visiting Researcher University of Chicago

Professional Career

2021-present: Associate Professor, Tianjin University of Technology, China


Awards and Honors

2021: Mingli Scholar of Tianjin University of Technology

2019: State Scholarship Fund awarded by China Scholarship Council

2018: Mindu International Bank Scholarship

2018: Qinghan Scholarship


Selected Publications

1.   Bifunctional Metal-Organic Layers for Tandem Catalytic Transformations with Molecular Oxygen and Carbon Dioxide, Shi, W.; Quan, Y.; Lan, G.; Ni, K.; Song, Y.; Jiang, X.; Wang, C.; Lin, W., J. Am. Chem. Soc., 2021, 143 (40), 16718-16724.

2.   Bifunctional Metal-Organic Layer with Organic Dyes and Iron Centers for Synergistic Photoredox Catalysis. Quan, Y.; Shi, W.; Song, Y.; Jiang, X.; Wang, C.; Lin, W., J. Am. Chem. Soc., 2021, 143 (8), 3075-3080.

3.  Surface Modification of Two-Dimensional Metal–Organic Layers Creates Biomimetic Catalytic Microenvironments for Selective Oxidation. Shi, W.; Cao, L.; Zhang, H.; Zhou, X.; An, B.; Lin, Z.; Dai, R.; Li, J.; Wang, C.; Lin, W. Angew. Chem. Int. Ed., 2017, 56 (33), 9704-9709.

4.   Biomimetic active sites on monolayered metal–organic frameworks for artificial photosynthesis. Lan, G.; Fan, Y.; Shi, W.; You, E.; Veroneau, S.; Lin, W. Nat. Catal. 2022, 5 (11), 1006-1018.

5.   Modulating the Microenvironments of Robust Metal Hydrogen-Bonded Organic Frameworks for Boosting Photocatalytic Hydrogen Evolution. Lu C.; Shi W.; Gong Y.; Zhang J.; Wang Y.; Mei J.; Ge Z.; Lu T.; Zhong D. Angew. Chem. Int. Ed. 2024 63, e202405451.

6.  Modulating the Electronic Structures of Dual-Atom Catalysts via Coordination Environment Engineering for Boosting CO2 Electroreduction. Gong, Y.; Cao, C.; Shi, W.; Zhang, J.; Deng, J.; Lu, T.; Zhong, D. Angew. Chem. Int. Ed. 2022, 61 (51), e202215187

7.  Cooperative Stabilization of the [Pyridinium-CO2-Co] Adduct on a Metal-Organic Layer Enhances Electrocatalytic CO2 Reduction. Guo, Y.; Shi, W.; Yang, H.; He, Q.; Zeng, Z.; Ye, J.-y.; He, X.; Huang, R.; Wang, C.; Lin, W. J. Am. Chem. Soc. 2019, 141 (44), 17875-17883.

8.   Metal-Organic Layers Hierarchically Integrate Three Synergistic Active Sites for Tandem Catalysis. Quan, Y. ; Lan, G. ; Shi, W. ; Xu, Z.; Fan, Y.; You, E.; Jiang, X.; Wang, C.; Lin, W. Angew. Chem. Int. Ed. 2021, 60 (6), 3115-3120.

9.   Photocatalytic CO2 reduction to methanol with metal free thiadiazole-based covalent organic frameworks. Wang Y., Shi, W.*, Tao W., Su Y., Wang X., Wang C., Zhong D.*, Lu T.*, App. Catal. B: Environ. Energy 2025, 374, 125404.

10. Asalen-based dinuclear cobalt(II)polymer with direct and indirect synergy for electrocatalytic hydrogen evolution. Hu X., Shi W.*, Mei J., Wang, Y., Tao W., Zhong D.*, Lu T.*, Chem. Sci.,2025, 16,10364.

天津理工大学    新能源材料与低碳技术研究院    鲁统部课题组

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