Personal profile
Personal profile
Beijing Institute of Technology special young scholar, professor, doctoral supervisor. He was selected as the youth project of "Changjiang Scholars Award Program" of the Ministry of Education. Mainly engaged in the field of new energy green secondary battery theory and technology research, including new energy materials, secondary batteries, synchrotron radiation X-ray technology, in situ characterization technology and other interdisciplinary basic research, application research and technology platform development. As a research backbone, he has participated in the 973 Program of the Ministry of Science and Technology, the EERE of the US Department of Energy and the UCLA-Dynavolt Sino-US international cooperation projects. Published more than 30 SCI papers as one author or corresponding author. Including Nature Energy, Nature Communications, Adv. Mater., Adv. Energy Mater., Adv. Funct. Mater., Nano Lett.,, Nano Energy and other internationally renowned academic journal papers. He taught 5 basic undergraduate courses and 1 graduate professional course in English, guided 4 innovative projects for college students, was awarded the title of excellent class teacher, and won the honor of Special Young Scholar and Hongcai Teacher Award of Beijing Institute of Technology.
Research Interests
High specific energy Green secondary battery and its functional Materials
Education
2003.09-2007.06 College of Environmental Science and Engineering, Hunan University Bachelor of Engineering
2007.09-2014.03 Beijing Institute of Technology, School of Chemical Engineering and Environment, Master degree and PhD
Professional Experience
2014.10-2018.02 Post-Doctoral Fellow, Argonne National Laboratory (ANL)
2018.03-2018.11 Postdoctoral Fellow, University of California, Los Angeles (UCLA)
2019.03-present Professor, School of Materials, Beijing Institute of Technology
2020.11-present Director, Department of Energy and Environmental Materials, School of Materials, Beijing Institute of Technology
2018.03-2018.11 Postdoctoral Fellow, University of California, Los Angeles (UCLA)
2019.03-present Professor, School of Materials, Beijing Institute of Technology
2020.11-present Director, Department of Energy and Environmental Materials, School of Materials, Beijing Institute of Technology
Research Achievement
1. G. Tan+, R. Xu+, Z. Xing+, Y. Yuan+, J. Lu*, J. Wen, C. Liu, L. Ma, C. Zhan, Q. Liu, T. Wu, Z. Jian, R. Shahbazian-Yassar, Y. Ren, D. J. Miller, L. A. Curtiss, X. Ji*, K. Amine*. Burning lithium in CS2 for high-performing compact Li2S-graphene nanocapsules for Li\u2012S batteries. Nature Energy, 2017, 2, 17090.
2. G. Tan, F. Wu*, Y. Yuan, R. Chen*, T. Zhao, Y. Yao, J. Qian, J. Liu, Y. Ye, R. Shahbazian-Yassar, J. Lu*, K. Amine. Freestanding three-dimensional core-shell nanoarrays for lithium ion battery anodes. Nature Communications, 2016, 7, 11774.
3. G. Tan, L. Chong, C. Zhan, J. Wen, L. Ma, Y. Yuan, X. Zeng, F. Guo, J. E. Pearson, T. Li, T. Wu, D.-J. Liu, R. Shahbazian-Jassar, J. Lu,, C. Liu*, K. Amine*. Insights into structural evolution of lithium peroxides with reduced charge overpotential in Li−O2 system. Adv. Energy Mater., 2019, 1900662.
4. G. Tan+, L. Chong+, R. Amine+, J. Lu*, C. Liu, Y. Yuan, J. Wen, K. He, X. Bi, Y. Guo, H.-H. Wang, R. Shahbazian-Jassar, S. A. Hallaj, D. J. Miller, D.-J. Liu, K. Amine. Towards highly efficient electrocatalyst for Li−O2 batteries using biphasic N-doping cobalt@graphene multiple-capsule heterostructures. Nano Lett., 2017, 17, 2959-2966.
5. G. Tan, F. Wu*, C. Zhan, J. Wang, D. Mu, L. Lu*, K. Amine. Solid-state Li-ion batteries using fast, stable, glassy nanocomposite electrolytes for good safety and long cycle-life. Nano Lett., 2016, 16, 1960-1968.
6. D. Cao, L. Zheng, Q. Li, J. Zhang, Y. Dong, J. Yue, X. Wang, Y. Bai, G. Tan*, C. Wu*, Crystal phase-controlled modulation of binary transition metal oxides for highly reversible Li−O2 batteries. Nano Lett., 2021, 21, 5225-5232.
7. D. Cao, Y. Bai, J. Zhang, G. Tan*, C. Wu*, Irreplaceable carbon boosts Li-O2 batteries: From mechanism research to practical application. Nano Energy, 2021, 89, 106464.
8. R. Wang, J. Wang*, S. Chen, Q. Yuan, D. Li, X. Zhang, L. Chen, Y. Water, G. Tan*, F. Wu, Effectively stabilizing electrode/electrolyte interface of high-energy LiNi0.9Co0.1O2/Si-C system would be cathode surface-coating. Nano Energy, 2020, 70, 105065.
9. J. Zhang, J. Wang, M. Qian, B. Zhao, R. Wang, X. Hao, X. Huang, R. Shao*, Z. Xing, J. Xie, B. Xu, Y. Su, F. Wu, G. Tan*, Lithiothermic-synchronous construction of Mo-Li2S-Graphene nanocomposites for high-energy Li2S/Si-C battery. Adv. Funct. Mater., 2021, 2108305.
10. Z. Xing+, G. Tan+, Y. Yuan+, B. Wang, L. Ma, J. Xie, Z. Li, T. Wu, Y. Ren, R. Shahbazian-Yassar, J. Lu*, X. Ji*, Z. Chen*. Consolidating lithiothermic-ready transition metals for Li2S-based cathodes. Adv. Mater., 2020, 2002403.
2. G. Tan, F. Wu*, Y. Yuan, R. Chen*, T. Zhao, Y. Yao, J. Qian, J. Liu, Y. Ye, R. Shahbazian-Yassar, J. Lu*, K. Amine. Freestanding three-dimensional core-shell nanoarrays for lithium ion battery anodes. Nature Communications, 2016, 7, 11774.
3. G. Tan, L. Chong, C. Zhan, J. Wen, L. Ma, Y. Yuan, X. Zeng, F. Guo, J. E. Pearson, T. Li, T. Wu, D.-J. Liu, R. Shahbazian-Jassar, J. Lu,, C. Liu*, K. Amine*. Insights into structural evolution of lithium peroxides with reduced charge overpotential in Li−O2 system. Adv. Energy Mater., 2019, 1900662.
4. G. Tan+, L. Chong+, R. Amine+, J. Lu*, C. Liu, Y. Yuan, J. Wen, K. He, X. Bi, Y. Guo, H.-H. Wang, R. Shahbazian-Jassar, S. A. Hallaj, D. J. Miller, D.-J. Liu, K. Amine. Towards highly efficient electrocatalyst for Li−O2 batteries using biphasic N-doping cobalt@graphene multiple-capsule heterostructures. Nano Lett., 2017, 17, 2959-2966.
5. G. Tan, F. Wu*, C. Zhan, J. Wang, D. Mu, L. Lu*, K. Amine. Solid-state Li-ion batteries using fast, stable, glassy nanocomposite electrolytes for good safety and long cycle-life. Nano Lett., 2016, 16, 1960-1968.
6. D. Cao, L. Zheng, Q. Li, J. Zhang, Y. Dong, J. Yue, X. Wang, Y. Bai, G. Tan*, C. Wu*, Crystal phase-controlled modulation of binary transition metal oxides for highly reversible Li−O2 batteries. Nano Lett., 2021, 21, 5225-5232.
7. D. Cao, Y. Bai, J. Zhang, G. Tan*, C. Wu*, Irreplaceable carbon boosts Li-O2 batteries: From mechanism research to practical application. Nano Energy, 2021, 89, 106464.
8. R. Wang, J. Wang*, S. Chen, Q. Yuan, D. Li, X. Zhang, L. Chen, Y. Water, G. Tan*, F. Wu, Effectively stabilizing electrode/electrolyte interface of high-energy LiNi0.9Co0.1O2/Si-C system would be cathode surface-coating. Nano Energy, 2020, 70, 105065.
9. J. Zhang, J. Wang, M. Qian, B. Zhao, R. Wang, X. Hao, X. Huang, R. Shao*, Z. Xing, J. Xie, B. Xu, Y. Su, F. Wu, G. Tan*, Lithiothermic-synchronous construction of Mo-Li2S-Graphene nanocomposites for high-energy Li2S/Si-C battery. Adv. Funct. Mater., 2021, 2108305.
10. Z. Xing+, G. Tan+, Y. Yuan+, B. Wang, L. Ma, J. Xie, Z. Li, T. Wu, Y. Ren, R. Shahbazian-Yassar, J. Lu*, X. Ji*, Z. Chen*. Consolidating lithiothermic-ready transition metals for Li2S-based cathodes. Adv. Mater., 2020, 2002403.
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Chemically bonded NaBr@Cyclized-PAN nanocomposite cathode for advanced sodium-ion batteries
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