Xu Baomin

Biography

Professor Xu Baomin: Bachelor of Science in Materials Science from Tsinghua University in 1986; Ph.D. in Materials Science from Shanghai Institute of Ceramics, Chinese Academy of Sciences in 1991; Postdoctoral Research Institute of Materials, Pennsylvania State University, USA, 1994-1996 Associate Professor of Research. From November 2000 to July 2014, he was a Senior Fellow and Project Manager at the Xerox Palo Alto Research Center in Xerox, USA. Now the Southern University of Science and Technology Department of Materials Science and Engineering lectures professor, the country's ninth batch of "thousands of people plan" selected experts. Professor Xu Baemin has a complete leadership and management experience in leading universities and world-class industrial research centers in the United States and is committed to basic research on industrial prospects. He has published more than 60 papers, authorized 31 US patents, of which 23 patents for the first or only inventor, three patents were Xerox awarded the best patent award, also served as APL, JAP, IEEE-UFFC, JACerS and other well-known international magazine long reviewers.

Research Interest

Solar cell materials and devices: including improved performance, stability and low cost roll-to-roll preparation technology for new perovskite solar cells; solar full-spectrum power generation technology, accurate spectroscopy and concentrating of solar spectroscopy, photovoltaic power generation and photothermal Power generation synergy and integration; high efficiency crystalline silicon solar cell low cost preparation technology. Chemical energy materials and devices of the new preparation technology: mainly research rechargeable batteries and super capacitor continuous full printing preparation, so that these rechargeable energy devices can be directly embedded microchip and wearable electronic products, to overcome the rechargeable energy devices and Application system integration bottlenecks. New Electrolyte Materials and Medium and Low Temperature Carbon-based Fuel Cells: A new type of electrolyte based on ionic liquids, including the improvement of ionic conductivity of materials, the stability at higher temperatures, and the electrical properties of materials, are studied. On the development of new low-temperature carbon-based fuel cell. The basic research and device simulation of energy materials: the use of modern means of analysis and atomic layer deposition and other advanced materials preparation means to study a variety of "loaded energy" (electrons, holes, positive and negative ions, photons, etc.) at the atomic and nano Generation, separation, transmission and recombination of the mechanism of the use of computer software package for energy components for finite element simulation and design.