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Address (34141) Daejeon, Yuseong-gu, Daehak-ro 291 KAIST Department of Chemistry Phone Number 042-350-2802~4 Fax Number 042-350-2810
논문성과. Langmuir. Iron Gall Ink Revisited: Visible Light-Induced, Eosin-Mediated Acceleration of Fe2+ Oxidation in Pattern Nanoarchitectonics of Fe3+-Tannic Acid Films. 연구자. Hyunwoo Choi, Hyeong Bin Rheem, Duc Tai Nguyen, Sang Yeong Han, Hojae Lee, Insung S. Choi. 날짜.
Associate Professor, Department of Chemistry, KAIST, 2019 – present; Assistant Professor: Department of Chemistry, KAIST, 2014 – 2019; Postdoctoral Associate: Department of Chemistry, Yale University, 2012 – 2014 (Advisor: Scott J. Miller) 수상. Young Scientist Award, The President of the Republic of Korea (2022)
Research Areas. Stereoselective catalysis: developing organocatalysis and transition-metal catalysts. Computational organic chemistry & molecular recognition: finding a new approach to catalyst design. Green chemistry: developing practical catalysts and reagents.
We will enthusiastically tackle fundamental questions in life science and pressing challenges in the real world by conducting creative and innovative research at the chemistry-biology interface.
Research Areas. Bioinorganic chemistry / chemical neuroscience / chemical biology. Metalloneurochemistry / metals in biology & medicine. Networks of molecular interactions in human diseases. Chemical tools, diagnostics & therapeutics for human diseases.
Specifically, we seek to develop generalizable transition metal architectures to conduct challenging redox transformations (e.g., water oxidation, CO 2 reduction, N 2 fixation, etc.) via facile proton and electron transfer processes both in the ground and excited states.
Computational techniques including quantum chemical calculation and statistical big data modeling are our workhorse to develop mechanistically guided hypotheses. Trainees will acquire synthetic techniques in air-free chemical synthesis, high-pressure gas chemistry, and physical organic analysis.
Research Areas. Synthesis of soft matters; small molecular weight liquid crystals, supramolecules, polymers, biopolymers, inorganic particles, etc. Nano- and microfabrication and orientation control of soft matters by topographic confinement.
This course is a continuation of Quantum Chemistry I. It covers a wide range of applications of quantum mechanics to chemistry, including the latest electronic structure calculations, molecular spectroscopy, and the use of time-dependent wave equations.
