Dr. Minghui Yang, researcher, doctoral supervisor, and Fellow of the Royal Society of Chemistry (FRSC), received his bachelor's and master's degrees from the Department of Chemistry, University of Liverpool, UK, and a Ph.D. degree from the University of Edinburgh, UK in 2010. From 2010 to 2013, he was engaged in the research of new energy materials in the Department of Chemistry of Cornell University. In December 2013, he returned to the Chinese Academy of Sciences with the National Overseas High-level Talent Introduction Program (Youth Project), and is currently the head of the solid functional materials research team at the Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences. He serves as a member of the Gas and Humidity Sensing Technology Professional Committee of the Sensitive Technology Branch of the Chinese Institute of Electronics, a member of the Rare Earth Catalysis and Process Professional Committee of the Chinese Chemical Society, a young member of the Rare Earth Crystal Professional Committee of the Chinese Rare Earth Society, and an Academic Editor of The Innovation journal. In 2014, he was awarded the Liaoning Province Hundred and Ten Thousand Project Talent Program (ten thousand people), in 2015, he was awarded the Outstanding Young Scientist of Shenyang Branch of the Chinese Academy of Sciences. The first level), as the project leader, he was supported by the Ningbo 3315 innovation team, supported by the Zhejiang Provincial Fund for Distinguished Young Scholars in 2019, and was elected to the Royal Society of Chemistry (FRSC) in the same year. In the past five years, he has presided over the general projects of the National Natural Science Foundation of China (2 projects), participated in the national key R&D project (1 project), and presided over the STS key deployment sub-project of the Chinese Academy of Sciences (1 project).
1.Solid functional material
Research the preparation methods of solid materials, control the morphology, composition, and structure of materials; develop new functional materials for sensors and high-performance catalysts.
2.Material crystal structure analysis
Through conventional XRD, synchrotron radiation, neutron diffraction and advanced electron microscopy equipment, the crystal structure and surface structure of functional materials are analyzed, and the structure-activity relationship of materials is revealed.
3.The main application of the material
Including: gas sensor, photoelectric catalysis, etc.
Excellent article TOC
The main application of the material