Electrode modification strategies for high-performance batteries
발표자
박슬기 (School of Chemical Engineering)
연구책임자
박슬기 (School of Chemical Engineering)
초록
내용
Lithium-ion (Li-ion) batteries (LIBs) and next-generation battery technology have both gained significant attention due to increasing demands for sustainable and high-performance energy storage. These technologies are being explored in electric vehicles (EVs), aviation, and energy storage systems (ESS). The practical applicability of a battery is influenced by factors such as energy density, rate capability, lifespan, cost and eco-friendliness. Special attention is given to how electrode material design influences these metrics, to align research efforts with the requirements of practical battery application. This work shows several approaches, including electrode surface modification, formation of composite architectures, conductive network design, and interface engineering to bring advanced materials closer to the conditions and constraints of practical battery applications.