Feng-shou Xiao

Biography

1990.8 Ph.D., Department of Chemistry, Jilin University & Catalysis Research Center, Hokkaido University, Sapporo & State Laboratory of Catalysis Research, Dalian Institute of Chemical Physics, Dalian Thesis: Catalysis by Supporting Ruthenium Clusters Advisors: Prof. Masaru Ichikawa (Sapporo), Prof. Xiexian Guo (Dalian), and Prof. Ruren Xu (Jilin Univ.) 1986.6 M.S., Department of Chemistry, Jilin University, Changchun Thesis: Catalysis by MFI Type of Zealots Advisor: Prof. Ruren Xu 1983.7 B.S., Department of Chemistry, Jilin University, Changchun. Course concentration on inorganic, organic, analytical, physical, and quantum chemistry, statistical mechanics, and atomic and molecular spectroscop 1990.8 Ph.D., Department of Chemistry, Jilin University & Catalysis Research Center, Hokkaido University, Sapporo & State Laboratory of Catalysis Research, Dalian Institute of Chemical Physics, Dalian Thesis: Catalysis by Supporting Ruthenium Clusters Advisors: Prof. Masaru Ichikawa (Sapporo), Prof. Xiexian Guo (Dalian), and Prof. Ruren Xu (Jilin Univ.) 1986.6 M.S., Department of Chemistry, Jilin University, Changchun Thesis: Catalysis by MFI Type of Zealots Advisor: Prof. Ruren Xu 1983.7 B.S., Department of Chemistry, Jilin University, Changchun. Course concentration on inorganic, organic, analytical, physical, and quantum chemistry, statistical mechanics, and atomic and molecular spectroscop

Research Interest

Science and technology aim at improving human life. It follows that, in order to live in concert with the environment, sustainable practices and enhanced management of the material flows through society are called for. Thus, the development of new technologies for the sustainable production of materials and energy should be imminent. Catalysis is a key technology to achieve the objectives of sustainable chemistry and energy problem. Research interests in catalytic materials group are focused on syntheisis, characteriaztion and catalytic tests of functional materails with nanopore, such as Zeolites and Zeotype materials. Zeolites are possible the most widely used catalysts in industry. In view of the industrial importance of zeolites and also because of the intrinsic scientific interest in their structural complexity and diverse chemistry, considerable effort has been directed into zeolite and zeotype materials