搜尋
Close this search box.

/ 師資陣容 /

蔣昭明

/ 學歷 Education /

Ph.D. Columbia University 美國紐約市哥倫比亞大學
M.S. University of Massachusetts at Amherst 美國麻州大學
B.S. Tunghai University 東海大學

/ 經歷Experience /

Professor, Department of Chemistry, National Sun Yat-Sen University, Kaohsiung, Taiwan (2001–Present)
Visiting Professor (Sabbatical Leave), Department of Chemistry, University of California, Davis, CA, USA (2005–2006)
Associate Professor, Department of Chemistry, National Sun Yat-Sen University, Kaohsiung, Taiwan (1995–2000)
Visiting Scientist, IBM T. J. Watson Research Center, Yorktown Heights, NY, USA (1994–1995)
Postdoctoral Member of Technical Staff, AT&T Bell Laboratories, Murray Hill, NJ, USA (1992–1994)
My childhood and youth years were spent in Taipei, Taiwan. I entered Tunghai University in Taichung, a liberal institution known for its beautiful campus. I completed my BSc in chemistry in 1983. After a two-year military service in the Marine Corps as a second lieutenant, in 1985 I went to the United States and obtained a master degree at University of Massachusetts, then I moved to Columbia University in the city of New York in 1987. Surface science was a rapidly emerging field at that time and I decided to join the group of Brian Bent, a brilliant scholar who was just recruited as an assistant professor. We built the lab together and for my thesis work I demonstrated that methylene insertion into the metal-alkyl bond can be responsible for the hydrocarbon chain growth in the Fischer-Tropsch synthesis. I received the doctorate in chemistry in 1992, then I did postdoctoral research at AT&T Bell Labs and IBM T. J. Watson Research Center until 1995. In that year I became an Associate Professor in the chemistry department of National Sun Yat-sen University, and was promoted to Professor in 2001. I served as departmental chair from 2009-2012. During my tenure at NSYSU my research group and I focus on understanding the mechanisms of surface reactions and we continue to be amazed by the excitement of accidental discoveries and unexpected results in the field of surface science.
Medal of Outstanding Young Chemist, Chinese Chemical Society, 2000
Distinguished Teaching Award, National Sun Yat-sen University, 2000
The research themes of my group at NSYSU center on “reactive intermediates on surfaces: generation, characterization, and reactions”. The agenda is about molecular-level understanding and the control of surface chemical reactions. A number of ultrahigh vacuum surface-sensitive techniques have been utilized to achieve this goal, for examples, thermal desorption-mass spectrometry (TD-MS), reflection-absorption infrared spectroscopy (RAIRS), Auger electron spectroscopy (AES), low-energy electron diffraction (LEED), and scanning probe microscopes (SPMs). We explore issues, such as heterogeneous catalysis, chemical vapor deposition, self-assembled monolayers, and structure-activity relationship of biomolecules.

/ 著作Works /

1. C.-H. Wu, J.-H. Chu, C.-H. Chou, P.-C. Lin, C.-W. Ong*, and C.-M. Chiang*, “Ester-Carbene and Its Dimerization with Exclusive Cis-Selectivity on a Silver Surface”, J. Phys. Chem. C 2022, 126, 5, 2482–2492.
2. Y.-W. Luo, C.-H. Chou, P.-C. Lin*, C.-M. Chiang*, “Photochemical Synthesis of Azoarenes from Aryl Azides on Cu(100): A Mechanism Unraveled”, J. Phys. Chem. C 2019, 123, 12195.
3. J.-L. Lin*, H.-P. Lin, C.-M. Yang, T.-Y. Chen, S.-H. Lee, and C.-M. Chiang*, “Reactions of CH2=CHBr and CH3CHBr2 on Cu(100) and O/Cu(100)”, J. Phys. Chem. C 2017, 121, 17990.
4. Y.-L. Chu, Y.-A. Chen, W.-C. Li, J.-H. Chu, C.-H. Chen* and C.-M. Chiang*, “Mechanistic insights into light-driven graphene-induced peroxide decomposition: radical generation and disproportionation”, Chem. Commun. 2016, 52, 9291.
5. C.-H. Cheng, P.-T. Yu, K.-C Ma, Y.-C. Wang, S.-M. Wu, and C.-M. Chiang*, “Capture of Bridging Imido and Azavinylidene Intermediates Engaged in Nitrogen Functionality Changes from Primary Azide to Nitrile on a Copper Surface”, J. Phys. Chem. C 2013, 117, 20784.
6. S.-M. Wu and C.-M. Chiang*, “Gold Makes the Termolecular Assembly Possible: Surface-Catalyzed Conversion of an Aldehyde to Its Cyclic Trimer”, J. Phys. Chem. Lett. 2011, 2, 2337.
7. W.-H. Han, J.-M. Liao, K.-L. Chen, S.-M. Wu, Y.-W. Chiang, S.-T. Lo, C.-L. Chen, and C.-M. Chiang*, “Enhanced Recognition of Single-Base Mismatch Using Locked Nucleic Acid-Integrated Hairpin DNA Probes Revealed by Atomic Force Microscopy Nanolithography”, Anal. Chem. 2010, 82, 2395.
8. H. Kung, S.-M. Wu, Y.-J. Wu, Y.-W. Yang, and C.-M. Chiang*, “Tracking the Chemistry of Unsaturated C3H3 Groups Adsorbed on a Silver Surface: Propargyl-Allenyl-Acetylide Triple Bond Migration, Self-Hydrogenation, and Carbon-Carbon Bond Formation”, J. Am. Chem. Soc. 2008, 130, 10263.
9. H. Kung, L.-C. Lee, S.-M. Wu, H.-Y, Cheng, and C.-M. Chiang*, “Sluggish Sigma-Bond Formation between sp-Hybridized Carbons: Acetylide Coupling on Ag(111)”, J. Am. Chem. Soc. 2007, 129, 1028.
10. C.-M. Chiang*, D. Lu, J.-T. Huang, C.-C. Hwang, C.-C. Cho, L.-J. Fan, and Y.-W. Yang*, “A Unique Reaction Pathway of Fluorine-Substituted Ethyl Groups on Cu(111): Successive Alpha, Alpha-Fluoride Elimination”, J. Am. Chem. Soc. 2004, 126, 12242.
11. J.-H. Wang and C.-M. Chiang*, “Observation of Beta-C-H Bond Activation of Allyl Groups Adsorbed on Ag(111) and an Unusual Deuterium Isotope Effect”, J. Am. Chem. Soc. 2000, 122, 11521

/ 專利Patents /