2024-present Associate Researcher, Shanghai Jiao Tong University

2013–2016 Ph.D. in Engineering, Hefei University of Technology
2006–2009 M.Eng., Hefei University of Technology
2002–2006 B.Eng., Hefei University of Technology

Nuclear Technology, New Energy

13. Dual-doping strategy with Cr and Ni in Perovskite cathode for enhanced steam electrolysis in solid oxide electrolysis cell, Xuewei He, Xu Huang, Hui Sun, Lizhen Gan*, Journal of Power Sources, 2025, 654, 237855.

12. In situ exsolution of metal particles to construct metal-oxide interfaces for efficient CO2, Xinyi Hong, Jinlong Lin, Xuewei He, Lizhen Gan*, International Journal of Hydrogen Energy, 2025,128, 68-75.

11. In Situ Exsolution of Metal Nanoparticles from a Perovskite Cathode To Promote CO2 Electrolysis, Jinlong Lin, Xinyi Hong, Xuewei He, Lizhen Gan*, Energy & Fuels ,2025, 39(8), 4038-4046.

10. In situ exsolved Fe nanoparticles enhance the catalytic performance of perovskite cathode materials in solid oxide electrolytic cells, Shiwen He, Xuewei He, Lizhen Gan*, New Journal of Chemistry, 2024, 48(44),18739-18745.

9. Electrochemical oxidative dehydrogenation of ethane to ethylene in a solid oxide electrolysis cell with in situ grown metal-oxide interface active electrodes, X He, X Huang, H Sun, L Gan*, International Journal of Hydrogen Energy, 2024, 79, 1030-1036.

8.Enhanced CO2 electrolysis with in situ exsolved nanoparticles in perovskite cathode, X He, X Huang, H Sun, L Gan*, New Journal of Chemistry, 2024, 48, 5834-5839. 

7. Modification of LSCM Structure by anchoring alloy nanoparticles for efficient CO2 electrolysis, H Sun, X He, X Huang, L Gan*, Energy & Fuels, 2024, 38, 3436-3444. 

6. Construction of a metal-oxide interface through alloy nanoparticles to enhance CO2 electrolysis, X Huang, H Sun, X He, Y Ruan, L Gan*, New Journal of Chemistry, 2024, 48, 2140-2145. 

5. Enhanced CO2 electrolysis through modulation of oxygen vacancies, L Huang, Y Xu, X Huang, H Sun, X He, L Gan*, New Journal of Chemistry, 2023, 47, 603-608. 

4. Enhanced steam electrolysis with exsolved iron nanoparticles in perovskite cathode, Y Xu, L Huang, Y Zhang, L Gan*, International Journal of Hydrogen Energy, 2022, 47, 24287-24296. 

3. Enhanced CO2 electrolysis with synergistic doping in perovskite cathode materials, Y Xu, L Huang, Y Zhang, L Gan*, New Journal of Chemistry, 2022, 46, 3116-3120.

2. Exsolved metallic iron nanoparticles in perovskite cathode to enhance CO2 electrolysis, Y Zhang, Y Xu, L Gan*, Journal of Solid State Electrochemistry, 2022, 26, 409-417.

1. Metal-oxide interface enhances methane oxidative coupling in a solid oxide electrolyzer, Y Xu, Y Zhang, L Huang, L Gan*, New Journal of Chemistry, 2022, 46, 13791-13796.

National Natural Science Foundation of China (General Program) , RMB 500,000, Grant No. 22579112, 2026-01-01 to 2029-12-31, Principal Investigator.

Enterprise-commissioned R&D Project, RMB 520,000, Grant No. 24H010105271, 2024-12-01 to 2026-11-30, Principal Investigator.

National Natural Science Foundation of China (General Program) , RMB 500,000, Grant No. 22379025, 2024-01-01 to 2027-12-31, Principal Investigator.

National Natural Science Foundation of China (Youth Program) , RMB 250,000, Grant No. 21902025, 2020-01-01 to 2022-12-31, Principal Investigator.

Fujian Provincial Natural Science Foundation (Youth Program) , Grant No. 2018J05012, 2018-04-01 to 2021-04-01, Principal Investigator.

Fujian Provincial Department of Education Young and Middle-aged Teacher Education Research Project, Grant No. JAT170174, 2017-09-01 to 2020-08-31, Principal Investigator.