Life Science and Technology Building (61) 1F 61157B
Research Interest
Bioenergy and biofuel productions via microbial processes, bioelectrochemical system, microbial electrosynthesis, anaerobic digestion, environmental microbiology
Education
2019 Ph.D, School of Urban and Environmental Engineering, UNIST
2014 BS, School of Urban and Environmental Engineering, UNIST
Experience
2023-present, Assistant professor, Sungkyunkwan University
2022-2023, Researcher, Research Institute of Industrial Science and Technology (RIST)
2020-2021, Postdoctoral researcher, Pennsylvania State University (PSU)
2020, Postdoctoral researcher, UNIST
Journal Articles
(2024)
Comparative study of exoelectrogenic utilization preferences and hydrogen conversion among major fermentation products in microbial electrolysis cells.
BIORESOURCE TECHNOLOGY.
393,
-
(2023)
A comprehensive analysis of key factors influencing methane production from CO2 using microbial methanogenesis cells.
WATER RESEARCH.
245,
-
(2023)
Challenges in engineering direct interspecies electron transfer for enhanced methanogenesis.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS.
183,
(2023)
A study of electron source preference and its impact on hydrogen production in microbial electrolysis cells fed with synthetic fermentation effluent.
BIOENGINEERED.
14,
1
(2023)
Machine learning approach for predicting anaerobic digestion performance and stability in direct interspecies electron transfer-stimulated environments.
BIOCHEMICAL ENGINEERING JOURNAL.
193,