(Last updated : 2020-11-26 12:33:29)
  CHUN, Wang Jae


   Division of Arts and Sciences, College of Liberal Arts, International Christian University
■ Academic Background
1. 1997/09/30
Degree Acquisition
The University of Tokyo, Doctor of Science
■ #Present Specialized Fields
Organic and hybrid materials, Functional solid state chemistry, Inorganic chemistry, Physical chemistry (Key Word:Functional material chemistry Thin film and surface,Catalysts,Metal Organic Framework,Bottom-up and Top-down, molecular chemistry,Single crystal Metal oxide surfaces,X-ray Absorption, Fine Structure,Nano-clusters,Surface,Metal oxide surfaces,Physical chemistry,interface physical properties) 
■ #Books and Articles
1. Book Foundations and applications of XAFS   (Collaboration) 2017/07
2. Book Nanoscience and Nanotechnology, Vol. 5: X-ray and Neutron Techniques for Nanomaterials Characterization, (Editor Challa S.S.R. Kumar): X-ray absorption fine structure analysis of catalytic nanomaterials   (Collaboration) 2016
3. Article A useful preparation of ultrasmall iron oxide particles by using arc plasma deposition RSC Advances 10,pp.41523-41531 (Collaboration) 2020/11 Link
4. Article Controllable Factors of Supported Ir Complex Catalysis for Aromatic C–H Borylation ACS Catalysis 10,pp.14552-14559 (Collaboration) 2020/11 Link
5. Article Metallic Tungsten Nanoparticles That Exhibit an Electronic State Like Carbides during the Carbothermal Reduction of WCl6 by Hydrogen Inorganic Chemistry 59(21),pp.15690-15695 (Collaboration) 2020/11 Link
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■ #Academic Conference Presentation
1. 2019/09/10 Demonstration of local heating of supported Pt nanoparticles under microwave irradiation by in situ EXAFS (17th International Conference on Microwave and High Frequency Heating)
2. 2018/08/05 Co-immobilization procedure of Rh complex and tertiary amine on same SiO2 surface for highly efficient hydrosilylation of olefins (The 8th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT8))
3. 2018/08/05 Concerted Catalysis of Pd Complex on Mesoporous Silica Surface for Acceleration of Allylation of Nucleophiles (The 8th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT8))
4. 2018/08/05 Effect of Mesopore Internal Surface on Structure of Immobilized Pd-Bisphosphine Complex Analyzed by Variable-Temperature XAFS (The 8th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT8))
5. 2017/10/27 Concerted Catalysis between Metal Complexes and Organic Amines on Surface for Significant Acceleration of Organic Synthesis (International Symposium on Novel Energy Nanomaterials, Catalysts and Surfaces for Future Earth)
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■ #Academic Society Memberships
1. 2007~ The Surface Science Society of Japan
2. 2002/04~ Japanese XAFS society
3. 1997~ The Japanese for Synchrotron Radiation Research
4. 2019/10~2021/09 ∟ Secretary of General affair
5. 1994~ Catalysis Society of Japan
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■ Educational Achievements
● Matter that should be mentioned specially in others educational activity
1. 2008/04~2008/07 "Tokyo Institute of Technology, Interdisciplinary Graduate School of Science and Engineering Department of Electronic Chemistry, Part time lecturer"
2. 2009/04~ "Curriculum committee of Chemistry major, 2009.4 - present"
■ Professional Achievements
● Other note that should be mentioned specially on duty
1. Surface Chemistry of Catalysts/XAFS studies of in-situ Solid-Liquid Interface Structure/Creation of functional well-defined metal oxide surfaces
■ #Research Topics, Funded Research, and Grants-in-Aid for Scientific Research
1. 2019/04~2022/03  Fine structure determination of nanoparticles embedded in surface mounted metal organic framework thin films  (Key Word : )
■ #Websites
■ #Grants-in-aid for Scientific Research Researcher Number