Temperature-Responsive Ionic Conductors for Energy Systems
발표자
양현우 (한국과학기술원)
연구책임자
문홍철 (한국과학기술원)
초록
내용
As the need for advanced energy storage solutions grows, the development of materials that can self-regulate under varying environmental conditions has become increasingly important. This study focuses on the use of temperature-sensitive ionogels, which exhibit unique ionic conductivity behaviors in response to temperature changes. The ionogels undergo a reversible phase change that alters their ionic conductivity, providing an efficient mechanism for regulating performance in electrochemical applications. This temperature sensitivity makes the ionogels ideal candidates for energy storage platforms, where they can help improve the stability and safety of devices operating under fluctuating thermal conditions. By integrating these materials into energy storage systems, we can enhance performance while ensuring reliable operation across a wide range of temperatures.