Lanzhou University | China
Dr. Weisheng Liu is a distinguished professor of chemistry at Lanzhou University, China, with over three decades of academic, research, and leadership experience in the field of lanthanide coordination chemistry. He received his Ph.D. in Chemistry from Lanzhou University and his B.S. from Shandong University. Dr. Liu has served in multiple prominent academic leadership roles, including Dean of the College of Chemistry and Chemical Engineering, Director of the Academic Affairs Office, and currently, Director of the Green Materials Research and Development Center at Lanzhou University. Dr. Liu’s research focuses on the synthesis, structure, and photophysical properties of lanthanide complexes and functional materials. He has pioneered work on supramolecular nanoreactors, photoluminescent MOFs, and room-temperature phosphorescent materials. His scholarly output includes over 388 scientific publications, many in top-tier journals such as Nature Communications, Advanced Materials, JACS, Angewandte Chemie, and Chemical Engineering Journal. His work has received international recognition, reflected in 14,286 citations across 11,929 documents and a Scopus h-index of 63, highlighting both his productivity and the significant impact of his research. Dr. Liu has been honored with multiple First Prizes for Excellence in Science and Technology from the Gansu Provincial Government and the Ministry of Education, China. With his strong academic record, international collaborations, and influential research contributions, Dr. Liu stands as a leading figure in coordination chemistry and materials science in China and globally.
Featured Publications
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Li, J., Kou, M., Zhou, S., Dong, F., Huang, X., Tang, X., Tang, Y., & Liu, W. (2025). Regulation of lanthanide supramolecular nanoreactors via a bimetallic cluster cutting strategy to boost aza-Darzens reactions. Nature Communications, 16, 2169.
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Miao, X., Zhang, P., Wang, B., Bai, X., & Liu, W. (2024). Bidirectional heterojunctions photocatalyst engineered with separated dual reduction sites for hydrogen evolution. Applied Catalysis B: Environmental and Energy, 357, 124268.
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Zhang, P., Xie, W., Miao, X., Lin, Z., Yang, Y., Liu, W., & Liu, W. (2024). Phase control and energy-trapping management for high quality X-ray afterglow imaging. Chemical Engineering Journal, 502, 158157.
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Yang, Y., Zhang, P., Miao, X., Lin, Z., Li, S., & Liu, W. (2024). Color‐tunable emission via site‐selective occupation of Eu²⁺ activators in silicate phosphors. Laser & Photonics Reviews, 18(4), 2400982.
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Lin, Z., Zhang, P., Song, F., Yang, Y., Miao, X., & Liu, W. (2024). Employing racemization strategies to simultaneously enhance the quantum yield, lifetime, and water stability of room-temperature phosphorescent materials. Chemical Science, 15, 8052–8061.