Sheet-type solid-state batteries
Ultra-thin and high energy density solid-state batteries are desired in various applications, ranging from portable electronics to electric vehicles. These batteries offer advantages such as enhanced safety, improved energy storage capacity, and the potential for flexible and miniaturized designs.
Our objective is to investigate and optimize the interfacial properties and performance of ultra-thin and high energy density solid-state batteries. By employing advanced characterization techniques and state-of-the-art analytical instruments, we aim to unravel the intricate interplay between materials, interfaces, and electrochemical processes within the battery system. Through systematic studies, we will identify key factors that influence the interfacial behavior, such as charge transfer kinetics, ion transport, and stability of electrode-electrolyte interfaces.
Furthermore, we will explore novel materials and design strategies to enhance the interfacial properties and overall performance of solid-state batteries. This includes the development of advanced electrolytes, interface engineering techniques, and optimization of electrode materials to achieve improved energy storage capabilities, longer cycle life, and enhanced safety.
