Abstract
Electrochemical energy storage technologies have garnered significant attention due to their efficient and sophisticated approaches for storing, transporting, and supplying energy derived from sustainable resources.[1-2] The demand for power and energy supply is crucial in practical applications and is poised to expand further in the future. Hence, there is a pressing need to either design new electrode materials or intelligently reconstruct existing ones for energy storage devices to address the power-energy tradeoff effectively. In this presentation, I will highlight our recent endeavors in the exploration of 2D layered materials for sustainable energy storage applications.[3] Specifically, I will outline various interlayer engineering strategies developed for inorganic 2D layered materials. These strategies aim to regulate ion transport behaviors and enhance the power-energy performance of the assembled energy storage devices.[4-7]
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