Ionomers are polymeric materials containing fixed charged ions (e.g., – SO3 -) to transport their counter ions (e.g., H+, Li+, Na+ and so on) selectively and have been widely used as key components for membrane and unit cell formation targeted for renewable energy generation (e.g., polymer electrolyte membrane fuel cells(PEMFC), redox flow batteries, and reverse electrodialyses) and valued chemical production (e.g., water and brine electrolysis). There are advantages such as high processability, easy solvent evaporation, and chemical inertness, when the ionomers are in the dissolved or dispersed states in water-alcohol mixtures to be applied for these applications. Unfortunately, it is difficult to make homogeneous solution or dispersion using the ionomers with hydrophilic levels undissolved in water. In this study, water-alcohol nanodipsersion with perfluorinated or hydrocarbon sulfonic acid ionomers are fabricated and their feasibilities as PEMFC and electrolysis materials are evaluated.

• 표세연(단국대학교 에너지공학과, Energy Engineering Department, Dankook University) | Seyeon Pyo
• 황진표(단국대학교 에너지공학과, Energy Engineering Department, Dankook University) | Jin Pyo Hwang
• 안주희(단국대학교 에너지공학과, Energy Engineering Department, Dankook University) | Juhee Ahn
• 임윤재(단국대학교 에너지공학과, Energy Engineering Department, Dankook University) | Yoon Jae Lim
• 박종준(단국대학교 에너지공학과, 한국자동차부품연구원, Energy Engineering Department, Dankook University, Korea Automotive Technology Institute) | Jongjun Park
• 구영모(한국자동차부품연구원, Korea Automotive Technology Institute) | Youngmo Goo
• 조용훈(강원대학교 화학공학과, Department of Chemical Engineering, Kangwon National University) | Yong-Hun Cho
• 이창현(단국대학교 에너지공학과, Energy Engineering Department, Dankook University) | Chang Hyun Lee