Professor Moonjeong Park’s research seeks to develop a new electrical transport polymer with high efficiency and stability based on polymer design/synthesis technology with multidimensional network morphology. In this study, Professor Park intends to improve the electrochemical stability potential window by inducing a non-covalent bond based molecular attraction to the ionic chain and establish a three-dimensional interconnected network structure.

This study enables systematic change in the size and morphology of single ion conductive polymer nanoparticles that form a super-gapsuper lattice. Furthermore, it broadens the horizons for flexible device/material source technology and gives rise to a next-generation energy storage medium platform for energy power sources (e.g., various mobility services).

This study is original that has never been reported in the polymer literature. As the resulting charge-transport polymer library can be applied in various fields, such as electronic materials and nano devices , the possibility of further applicability was highly complimented.