Prof. Guo Fangqin

Technical Director: Prof. Guo Fangqin

1991 Born in Shandong Province, China.

2016 Graduated from Hiroshima University with a master's degree and engaged in the research of analytical chemistry.

2020 Graduated from Hiroshima University with a doctoral degree in intergrated science. Research assistant at the University during her studies and stayed at the University after graduation to carry out technological R&D and post-doctoral research.

2021 Assistant professor at the Graduate School of Advanced Science and Engineering, Hiroshima University in October and has been working till date.

Detailed introduction

Research Areas:

Professor Fangqin Guo has been focusing on research in materials science. She has developed solid-state hydrogen storage alloys and thermochemical hydrogen compression technology for the efficient compression of hydrogen. She specializes in the research of degradation properties of solid-state hydrogen storage alloys under high temperatures and high pressure and provides a practical utilization of pressure and temperature range for efficient use of solid-state hydrogen storage alloys. She has also developed ammonia storage materials and practical ammonia electrolysis technology and won the Excellent Poster Award twice. She has published several papers in international authoritative academic journals such as "JOURNAL OF ALLOYS AND COMPOUNDS", "JOURNAL OF MATERIALS CHEMISTRY" and "ENERGIES". She is also a member of the JIM, JSME and Japan Hydrogen Association.

Research Achievements:

She has published several research papers on hydrogen storage alloys for practical applications in famous academic journals such as "International Hydrogen Energy" and others. For example, research on the degradation and recovery properties of TiFe alloys when applied to thermochemical hydrogen compression (https://doi.org/10.1016/j.ijhydene.2023.05.236) and the Semi-empirical degradation assessment study in cyclic testing (https://doi.org/10.1016/j.ijhydene.2023.09.011) of TiFe1-xMnx hydrogen storage alloys in thermochemical hydrogen compression. In addition, she is committed to the development and application of other hydrogen storage alloys. Synthetic porous silicon is used in the hydrogen storage system Li-Si, which significantly improves the hydrogen storage kinetic properties of the system ((https://doi.org/10.1016/j.ijhydene.2023.09.011). Developing efficient catalysts and Improving the hydrogen absorption and desorption performance of magnesium-based hydrogen storage systems (https://doi.org/10.1016/j.ijhydene.2024.02.379). And published in the journal "Rare Earth Metals" through the interface design of complex hydrides in Li6. Achieving high critical current density in 4La3Zr1.4Ta0.6O12 electrolyte (https://doi.org/10.1007/s12598-023-02479-7). She already published more than ten papers in the field of hydrogen storage alloys and efficient energy utilization research after her PhD within four years. She participated in the writing of the hydrogen energy book "Hydrogen and Hydrogen Energy," which was edited by Professor Li Xingguo of Peking University and successfully published and received great attention. She has been invited to share her latest academic results and joined many energy-related international academic conferences held in China, India, Japan, Australia, and other countries.

Key words:

The company has the world's top hydrogen ammonia field experts and partners, with technology to accelerate the marketization of green hydrogen.

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