Sangmyung University
Multiscale Energy Materials & Systems Laboratory
Pioneering convergent research in water electrolysis, fuel cells, ion exchange membranes, and AI-driven energy conversion device performance prediction.
What We Do
Research
MEMS Lab conducts convergent research across energy conversion and separation technologies, including water electrolysis & fuel cell catalyst layers, ion exchange membranes, electrochemical processes, and AI/ML-based performance prediction.
Latest Research
Recent Publications
Decoupling Solvent Effects: Perfluorinated Sulfonic Acid Structure and Catalyst Layer Stability in PEM Water Electrolysis
Jong-Hyeok Park and Jin-Soo Park
Toward Scalable and Robust Diffusio-Osmotic Membranes for Sustainable Salinity Gradient Energy Harvesting
Jin-Soo Park
Solvent-driven morphological and electrochemical enhancements in catalyst layers for proton exchange membrane water electrolysis
Jong-Hyeok Park, Jiyoung Heo, Hyun S. Park and Jin-Soo Park
Impact of Cross-Linking-Monomer Characteristics on Pore-Filling-Membrane Performance and Durability in Anion-Exchange Water Electrolysis
Jong-Hyeok Park, Yeri Park, Tae-Seok Jeon, Yuna Seo and Jin-Soo Park
Enhanced Performance and Durability of Pore-Filling Membranes for Anion Exchange Membrane Water Electrolysis
Minyoung Lee and Jin-Soo Park
Latest Updates
News & Notice
Decoupling Solvent Effects: Perfluorinated Sulfonic Acid Structure and Catalyst Layer Stability in PEM Water Electrolysis
Membranes
Best Poster Presentation Award
GIST Ertl Center
Best Poster Presentation Award
대한화학회 환경에너지 분과
Toward Scalable and Robust Diffusio-Osmotic Membranes for Sustainable Salinity Gradient Energy Harvesting
Applied Chemistry for Engineering
Solvent-driven morphological and electrochemical enhancements in catalyst layers for proton exchange membrane water electrolysis
Journal of Power Sources
Impact of Cross-Linking-Monomer Characteristics on Pore-Filling-Membrane Performance and Durability in Anion-Exchange Water Electrolysis
Applied Sciences