메뉴 건너뛰기

RESEARCH PROFESSOR & POST-DOC

[Post Doctor] Yoo Seok Lee

by anonymous posted May 01, 2019

이유석오빠.jpg

 

 

E-Mail : yooseok@gist.ac.kr
Education
Ph. D. School of Environmental Science and Engineering, Gwangju Institute of Science and Technology (GIST)
M. S. School of Environmental Science and Engineering, Gwangju Institute of Science and Technology (GIST)
B. S. Dept. of Chemistry, Kumoh National Institute of Technology, Korea
Thesis for M.S. degree
High Performance of Sediment Microbial Fuel Cell Using Multi-Layered Structure Enhanced Organic Supply Rate
Publication
Y. S. Lee, S. W. Baek, H. Lee, S. Reginald, Y. Kim, H. Kang, I-G Choi, I. S. Chang (2018) Construction of uniform monolayer- and orientation tunable enzyme electrode by a synthetic glucose dehydrogenase without electron transfer subunit via optimized site-specific enzyme immobilization shows dramatic increase of direct electron transfer efficiency across the enzyme–electrode interface, ACS Appl. Mater. Interfaces, DOI: 10.1021/acsami.8b08876
Y. S. Lee, J. An, B. Kim and I. S. Chang (2017) Serially connectable sediment microbial fuel cells using multi-hole dipole graphite solids and voltage reversal suppression through manipulation of ohmic resistance. Energy Technol.
J. An, Y. S. Lee, T. Kim and I. S. Chang (2016) Significance of maximum current for voltage boosting of microbial fuel cells in series. J. Power Sources, 323, 23-28.
J. Kim, B. Kim, J. An, Y. S. Lee and I. S. Chang (2016) Development of anode zone using dual-anode system to reduce organic matter crossover in membraneless microbial fuel cells. Bioresour Technol. 213, 140-145.
J. Nam, Y. S. Lee, J. An, B. Kim, H.-S. Lee and I. S. Chang (2016) Correlation of overvoltages and current densities to estimate optimal electrode size for sediment microbial fuel cells. Energy Technol. 3, 369-374.
Y. S. Lee, J. An, B. Kim, H. J. Park, J. Kim and I. S. Chang (2015) Increased power in sediment microbial fuel cell: facilitated mass transfer with using a water-layer anode in sediment. PLoS ONE 10(2), e0145430
D. Fapyane, Y. S. Lee, C. Y. Lim, J.-H. Ahn, S.-W. Kim and I. S. Chang (2014) Immobilisation of FAD-dependent glucose dehydrogenase α-subunit in free-standing graphitised carbon nanofiber paper using a bifunctional cross-linker for enzyme biofuel cell. ChemElectroChem. 1, 1844-1848
Research Interests
Macro/micro/nanoscale approach for direct electron transfer based bioelectrocatalysis systems
Specific immobilization via genetic engineering of solid-binding peptide fused to enzymes for enhancing direct bioelectrocatalysis at enzyme-electrode interface
Development of enzyme-electrode interface via nano-patterning of synthetic enzymes on Spatially Tunable Gold Nanoparticle-modified Electrode
Development of enzyme-based biosensor for dissolved CO concentration monitoring
Design and construction of enzymatic electrosynthesis system for formic acid (formate) production

[Post Doctor] Jiyeong Jeong

by anonymous posted May 01, 2019

 

지영언니.jpg

E-Mail : jjy89@gist.ac.kr
Education
Ph. D. School of Environmental Science and Engineering, Gwangju Institute of Science and Technology (GIST)
M. S. School of Environmental Science and Engineering, Gwangju Institute of Science and Technology (GIST)
B. S. Department of Biological Chemistry, Chonnam National University, Korea
Thesis for M.S. degree
Construction of Genetic Manipulation System for Gram-Positive Acetogen, Eubacterium limosum KIST612
Publication
J. Jeong*, J. Bertsch*, V. Hess, S. Choi, I.-G. Choi, I. S. Chang# and V. Müller# (2015) Energy Conservation Model Based on Genomic and Experimental Analyses of a Carbon Monoxide-Utilizing, Butyrate-Forming Acetogen, Eubacterium limosum KIST612, Appl. Environ. Microbiol. 81, 4782-4790. Highlighted by editor's selection (*both authors contributed equally to the study, #co-correspondence)
M. Yasin, Y. Jeong, S. Park, J. Jeong, Ey. Y. Lee, R. W. Lovitt, B. H. Kim, J. Lee and I. S. Chang (2015) Microbial synthesis gas utilization and ways to resolve kinetic and mass-transfer limitations. Bioresour. Technol. 177, 361-374
Research Interests
metabolic engineering

Board Pagination Prev 1 Next
/ 1
위로