Li Qunxiang

Biography

Dr. LI Qunxiang is currently working as a Professor in the Department of  Chemical Physics, University of Science and Technology of china , China. His research interests includes Single-molecule chemical physics: Theoretical investigation of the chemical physics properties of single molecules on surfaces via first-principles calculations, Molecular electronics: Understanding the transport properties through single molecular junctions and designing model molecular devices, Computational material physics: Theoretical characterization of low-dimensional novel low-dimensional materials (i.e. graphene) and methodology development, Scanning probe microscopy theory: STM image, dI/dV mapping and STS simulations.. He /she is serving as an editorial member and reviewer of several international reputed journals. Dr. LI Qunxiang is the member of many international affiliations. He/ She has successfully completed his Administrative responsibilities. He /she has authored of many research articles/books related to Single-molecule chemical physics: Theoretical investigation of the chemical physics properties of single molecules on surfaces via first-principles calculations, Molecular electronics: Understanding the transport properties through single molecular junctions and designing model molecular devices, Computational material physics: Theoretical characterization of low-dimensional novel low-dimensional materials (i.e. graphene) and methodology development, Scanning probe microscopy theory: STM image, dI/dV mapping and STS simulations..

Research Interest

Single-molecule chemical physics: Theoretical investigation of the chemical physics properties of single molecules on surfaces via first-principles calculations, Molecular electronics: Understanding the transport properties through single molecular junctions and designing model molecular devices, Computational material physics: Theoretical characterization of low-dimensional novel low-dimensional materials (i.e. graphene) and methodology development, Scanning probe microscopy theory: STM image, dI/dV mapping and STS simulations.