报告时间： 2013年9月30日（星期一）9：30 

　　报告地点：能源楼二号楼八楼大会议室  

　　报告人：  Prof. Suk Bong Hong   

　　          (School of Environmental Science and Engineering,  

　　          Pohang University of Science and Technology) 

　　报告人简介： 

　　Education 

　　1979-1983 B.S., Division of Chemical Engineering, Hanyang University  

　　1983-1985 M.S., Department of Chemistry, Seoul National University  

　　1989-1992 Ph.D., Department of Chemical Engineering, Virginia Tech 

　　* Supervisor: Prof. Mark E. Davis

　　(Current Address: Dept of Chemical Engineering, Caltech, Pasadena, CA 91125, USA)

　　Career 

　　1985-1989 Research Scientist, Division of Applied Chemistry, 

　　    Korea Institute of Science and Technology.

　　1992-1993 Post Doc., Department of Chemistry, Caltech 

　　          (Supervisor: Prof. Harry B. Gray). 

　　1996   Visiting scholar, Lawrence Berkeley National Laboratory, 

　　          UC Berkeley. 

　　1993-1998 Senior Research Scientist, Center for Materials Chemistry, 

　　  Korea Institute of Science and Technology.

　　1998-2007 Associate Professor, Division of Applied Chemistry  

　　           and Biotechnology, Hanbat National University. 

　　2007    Professor, Department of Chemical Engineering 

　　  and School of Environmental Science and Engineering, POSTECH.

　　2008    Editorial Board Member, The Open Materials Science Journal.  

　　2009    Editorial Board Member, Applied Catalysis B: Environmental. 

　　 Research Specialization 

　　- Synthesis, Characterization and Application of Ordered Porous Materials. 

　　- Hydrogen & Carbon Dioxide Separation.  

　　Representative Publications 

　　"Tetrahedral Atom Ordering in a Zeolite Framework: A Key Factor Affecting Its Physicochemical Properties" 

　　Shin, J.; Bhange, D. S.; Camblor, M. A.; Lee, Y.; Kim, W. J.; Nam, I. S.; Hong, S. B., J. Am. Chem. Soc., 2011, 133, 10587-10598. "Sythesis of aluminosilicate and gallosilicate zeolites via a charge density mismatch approach and their characterization"

　　Park, M. B.; Cho, S. J.; Hong, S. B., J. Am. Chem. Soc. 2011, 133, 1917-1934.

　　"Synthesis and Characterization of ERI-Type UZM-12 Zeolites and Their Methanol-to-Olefin Performance"

　　Lee, J. H.; Park, M. B.; Lee, J. K.; Min, H.-K.; Song, M. K.; Hong, S. B., J. Am. Chem. Soc. 2010, 132, 12971-12982.

　　“PST-1: A Synthetic Small-Pore Zeolite that Selectively Adsorbs H2”

　　Shin, J; Camblor, M. A.; Woo, H. C.; Miler, S. R.; Wright, P. A.; Hong, S. B., Angew. Chem. Int. Ed. 2009, 48, 6647-6649.

　　“Synthesis, Crystal Structure, Characterization, and Catalytic Properties of TNU-9”

　　Hong, S. B.; Min, H.-K.; Shin, C.-H.; Cox, P. A.; Warrender, S. J.; Wright, P. A., J. Am. Chem. Soc. 2007, 129, 10870-10885.

　　“Complex Zeolite Structure Solved by Combining Powder Diffraction and Electron Microscopy”

　　Gramm. F.; Baerlocher, C.; McCusker, L. B.; Warrender, S. J.; Wright, P. A.; Han, B.; Hong, S. B.; Liu, Z.; Ohsuna, T.; Terasaki, O., Nature 2006, 444, 79-81.

　　“In Situ Disorder-Order Transformation in Synthetic Gallosilicate Zeolite with the NAT Topology”

　　Hong, S. B.; Lee, S.-H.; Shin, C.-H.; Woo, A. J.; Alvarez, J. L.; Zicovich-Wilson, M. C.; Camblor, M. A., J. Am. Chem. Soc. 2004, 126, 13742-13751.

　　“Synthesis, Characterization, Structure Solution, and Catalytic Properties of TNU-10: A High-Silica Zeolite with the STI Topology”

　　Hong, S. B.; Lear, E. G.; Wright, P. A.; Zhou, W.; Cox, P. A.; Shin, C.-H.; Park, J.-H.; Nam, I.-S., J. Am. Chem. Soc. 2004, 126, 5817-5826.

　　  Zeolites and related ordered porous materials are technologically important materials, with main uses as catalysts and separation media, and they are of increasing interest as hosts for nanotechnology applications. The utility of such crystalline solids is intimately connected with their structural architecture, and thus ability to control the structure of these types of materials is an important goal in today’s chemical research.  

　　  The focus of our work is in demonstrating innovative synthetic strategies for nanoporous materials with previously unobserved framework structures and compositions that could facilitate entirely new process and device applications. We combine synthetic chemistry and characterization with careful evaluation of microstructures and functionality in challenging applications. Our current research projects focus on molecular sieve synthesis, crystal structure elucidation, environmentally benign and sustainable catalysis, ion exchange, and gas (mainly H2 and CO2) separation. Our work is strengthened by substantial industrial interactions.