Wang Liang holds a PhD degree in environmental engineering of Shanghai University in 2012, and is currently Assistant Professor at the Institute of Nanochemistry and Nanobiology of Shanghai University. His present research mainly focuses on the controlled syn thesis of carbon functional nanomaterials using green chemical methods,and exploring of their applications, which broadly include photo catalysis, electroncatalysis, advanced lithium ion batteries, solar water splitting and bioimaging. The major goal of his research group is to develop novel strategies and techniques for enhancing the efficiency of alternative energy conversion and storage devices. Over 30 publications in high-level international journals,e.g., Nature communications, ACS Sustainable Chemistry & Engineering,Journal of Hazardous Materials, Chemical Engineering Journal and Catalysis Communications. His research funds include: the National Natural Science Foundation of China, China Postdoctoral Science Foundation Funded Project,Shanghai Post-doctoral Scientific Program, Shanghai Young Teachers' Training Program, and so on. He was selected Shanghai sailing scholar in 2016.
The project intends to design and synthesize efficient broad-spectrum light-harvesting materials based on new environmental-friendly graphene quantum dots. First, highly efficient broad-spectrum responsive graphene quantum dots are low-cost, high-quality macro-controllable prepared in Fig.1.[1,2] Second, grapheme quantumdot nano-compounds are prepared using various metal compounds.[3,4]The photo catalytic performances of grapheme quantum dot nano-compounds are regulated due to the broad-spectrum and electron transfer characteristics of graphene quantum dots. Last, the separation and dominant mechanisms of photo-generated electrons and holes in photo catalytic reaction process are discussed.[3,4] The researches provide a theoretical guidance for the design and synthesis of nano-photo catalyst in the future, but also expect to be important applications in the degradation of pollutants and artificial photosynthesis for water-splitting.
CGIA supports members to focus on application and industry chain, to keep pace with market development, to guarantee industry interests by involving in policy making and establishing standards, and to build long-term cooperation with up-down stream enterprises all over the world.
E-mail: meeting@c-gia.org
Abstract: Minyang Lu
Sponsor: Wenyang Yang
Media: Liping Wang
Operated by:China Innovation Alliance of the Graphene Industry