Artificial Intelligence & Protein Engineering

People

Professor

Total 5건 1 페이지
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이정걸

Jung-Kul Lee

5
Education

1993. 2 B.S.: Applied Biological Chemistry, Seoul National University

1995. 2 M.S.Biochemistry, Seoul National University

1999. 2 Ph.D.Biological Sciences, Korea Advanced Institute of Science and Technology (KAIST)

4
Professional Experience
  • 1999.1 ~ 2003.12   Post Dr.  Bolak Co., Ltd., BioNgene Co., Ltd.
  • 2004.1 ~ 2006.1     Post Dr.  Chemical and Biomolecular Engineering, University of Illinois at Urbana-Champaign
  • 2006.3 ~ present    Professor Department of Chemical Engineering, Konkuk University, Seoul, S. Korea
  • 2010 ~ present       Head    Institute of SK Chemicals-KU Biomaterials

 

3
Awards/Honors
  • 2021  Konkuk University Academic Excellence Award
  • 2015  The Excellent Performance Selection of Basic Research (NRF)
  • 2015  Academic Excellence Award (Journal of Microbiology and Biotechnology)
  • 2014  Academic Excellence Grand Prize (Konkuk University)
  • 2014-18  Research Pioneer Award (Konkuk University)
  • 2010  Konkuk University Academic Excellence Award
  • 2009  Excellence in Teaching Award (Konkuk University)
  • 2001  Ten New Technology Award (Ministry of Commerce, Industry and Energy)
 
2
Academic Activities
  • 2021-present  Guest Editor of Frontiers in Bioengineering and Biotechnology
  • 2020-present  Guest Editor of Seminars in Cancer Biology
  • 2019-present  Editorial Board Member of Materials
  • 2014-present  Editorial Board Member of Enzyme and Microbial Technology
  • 2014-2017  Associate Editor, Journal of Microbiology and Biotechnology
  • 2010-present  Editorial Board Member of Journal of Microbiology and Biotechnology
  • 2010-2016  Editorial Board Member of Applied Biological Chemistry
 
1
Selected Corresponding Authored Publications (2017-2021)
1. Investigating the role of metals loaded on nitrogen-doped carbon-nanotube electrodes in electroenzymatic alcohol dehydrogenation. Applied Catalysis B-Environmental (2022) 307, 121195.
2. Integrative approaches for producing biological hydrogen and bioactive molecules from biowaste. Renewable and Sustainable Energy Reviews (2021) 150, 111491.
3. Emerging applications of bacteria as anti-tumor agents. Seminars in Cancer Biology (2021) (doi.org/10.1016/j.semcancer.2021.05.012)
4. Elucidating structure-performance relationships in whole-cell coopreative enzyme catalysis. Nature Catalysis (2019) 2, 809-819.
5. NADH-free electroenzymatic reduction of CO2 by conductive hydrogel-conjugated formate dehydrogenase. ACS Catalysis (2019) 9, 5584-5589.
6. Continuous 3D TiN nanoshell structure for solar-driven biocatalytic CO2 reduction. Advanced Energy Materials (2019) 1900029.
7. SiO2 microparticles with carbon nanotube-derived mesopores as an efficient support for enzyme immobilization. Chemical Engineering Journal (2019) 359, 1252-1264.
8. Quorum sensing inhibitors as antipathogens: biotechnological applications. Biotechnology Advances (2018) 37, 68-90.
9. Insights into cell-free conversion of CO2 to chemicals by a multienzyme cascade reaction. ACS Catalysis (2018) 8, 11085-11093.
10. An artificial synthetic pathway for acetoin, 2,3-butanediol, and 2-butanol production from ethanol using cell free multi-enzyme catalysis. Green Chemistry 2018, 20, 230-242.
11. Photoelectrochemical reduction of carbon dioxide to methanol via a highly efficient enzyme cascade. Angewandte Chemie-International Edition (2017) 56, 1-7.