Personal profile
Biography
Dr Molly Li completed her PhD in Inorganic Chemistry in May 2018 from the University of Oxford. She has a broad foundation and experience in the chemistry of materials and applied catalysis in green energies and the environment, the focus of which has recently incorporated the design of efficient catalyst systems for turning waste to renewable fuels as well as the reversible hydrogen storage cycle based on methanol or ammonia conversion.
Research interests
Heterogeneous catalysis, nanocatalysts, renewable fuel production, chemical hydrogen storage.
Education/Academic qualification
Bachelor of Science, National Cheng Kung University
Master of Science, National Cheng Kung University
Doctor of Philosophy, University of Oxford
Expertise related to UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):
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SDG 7 Affordable and Clean Energy
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Collaborations and top research areas from the last five years
Research output
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Streamlined assessment and optimization of sustainable aviation fuels via few-shot learning and tailored genetic algorithm
Ren, X., Yang, H., Li, M. M. J., Leu, S. Y., Lin, C. S. K., Zhang, X., Wen, C. Y., Chao, C. Y. H. & Cheng, S., Mar 2026, In: Applications in Energy and Combustion Science. 25, 100442.Research output: Journal article publication › Journal article › Academic research › peer-review
Open Access -
Ab initio intermolecular interactions mediate thermochemically real-fluid effects that affect system reactivity: The first application of high-order Virial EoS and first-principles multi-body potentials in trans-/super-critical autoignition modelling
Wang, M., Tang, R., Ren, X., Cui, Y., Li, M. M. J., Leu, S. Y., Lin, C. S. K. & Cheng, S., Feb 2025, In: Combustion and Flame. 272, 113844.Research output: Journal article publication › Journal article › Academic research › peer-review
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Aggregation-Induced Equidistant Dual Pt Atom Pairs for Effective CO2 Photoreduction to C2H4
Zhang, Y., Wei, T., Ding, D., Wang, K., Di, J., Tseng, J. C., She, Y., Li, M. M. J., Xia, J. & Li, H., 21 Mar 2025, In: ACS Catalysis. 15, 7, p. 5614-5622 9 p.Research output: Journal article publication › Journal article › Academic research › peer-review
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Demonstration of a kW-scale flexible multi-fuel reforming power generation system for decentralized energy supply
Wang, Z., Lin, Y., Guo, Y., Liang, F., He, Z., Hu, J., Mao, J. & Li, M. M. J., 15 May 2025, In: Chemical Engineering Journal. 512, 162626.Research output: Journal article publication › Journal article › Academic research › peer-review
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Efficient Low-temperature Ammonia Cracking Enabled by Strained Heterostructure Interfaces on Ru-free Catalyst
Xiong, P., Li, J., Xu, Z., Lin, Y., Bennett, R. D., Zhang, Y., Tu, W. M., Zhu, Y., Soo, Y. L., Wu, T. S. & Li, M. M. J., 28 Apr 2025, In: Advanced Materials. 2502034.Research output: Journal article publication › Journal article › Academic research › peer-review
Open Access7 Link opens in a new tab Citations (Scopus)