정병혁
Jung, ByunghyuckDepartment of Physics and Chemistry
학력
- 2004 ~ 2008한국과학기술원 박사
- 2002 ~ 2004한국과학기술원 석사
- 1998 ~ 2002한국과학기술원 학사
경력
- 2014 ~ CurrentDGIST, 기초학부 / 조교수
- 2010 ~ 2013Boston College / 박사후연구원
- 2009 ~ 2010KAIST / 연수연구원
- 2008 ~ 2009삼성전기 / 책임연구원
수상실적
- 2023 총장표창 / DGIST
연구실 소개
- Asymmetric Organic Synthesis and Drug Synthesis Laboratory
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Most of drugs, including Remdesivir® as a potential candidate for COVID-19, have chiral carbon-centers and Thalidomide-scandal had brought the importance of stereoselective synthesis of drugs. In this sense, we pursue the development of practical and efficient asymmetric reactions to apply for the lab-scale or bulk-scale synthesis of chiral drugs. To realize that, we focus on 1) the design and the synthesis of novel chiral catalysts, 2) the development of practical reagents, and 3) the development of novel methodology for C-C, C-O, C-N, or C-B bond formations.
Related Keyword
- "Regioselective Transformations of Unsaturated Systems Catalyzed by Low-Valent Nickel: Cycloaddition, Hydrosilylation, and Dicarbofunctionalization", Synlett, v.36, no.13, pp.1889 - 1899
- "Regioselective Formal Hydroamidation of Alkynes: Synthesis of α-Substituted Acrylamides", Park, Cheong Hoon. (2025-04). Regioselective Formal Hydroamidation of Alkynes: Synthesis of α-Substituted Acrylamides. European Journal of Organic Chemistry, 28(16). doi: 10.1002/ejoc.202401484
- "Synthesis of (Z)-Allylsilanes by Cu-Catalyzed Regioselective Protosilylation of Allenes via a Single-Electron Process", Kim, Min. (2025-02). Synthesis of (Z)-Allylsilanes by Cu-Catalyzed Regioselective Protosilylation of Allenes via a Single-Electron Process. ACS Catalysis, 15(3), 2380–2388. doi: 10.1021/acscatal.4c07488
- "Unlocking High Porosity: Post-Synthetic Solvothermal Treatment of Cu-Paddlewheel Based Metal–Organic Cages", Lee, Byeongchan. (2024-06). Unlocking High Porosity: Post-Synthetic Solvothermal Treatment of Cu-Paddlewheel Based Metal–Organic Cages. Small, 20(23). doi: 10.1002/smll.202308393
- "Recent advances in earth-abundant transition metal-catalyzed dihydrosilylation of terminal alkynes", Lee, Chanmi. (2024-05). Recent advances in earth-abundant transition metal-catalyzed dihydrosilylation of terminal alkynes. Frontiers in Chemistry, 12. doi: 10.3389/fchem.2024.1411140
연구분야
미래유망 신기술(6T)