Multi‐Attribute Triboelectric Materials and Innovative Applications Via TENGs

Abstract

AbstractTriboelectric nanogenerators (TENGs) as an avant‐garde technology that transforms mechanical energy into electrical energy, offering a new direction for green energy and sustainable development. By means of high‐efficiency TENGs, conventional materials as new triboelectric materials have exhibited multi‐attribute characteristics, achieving innovative applications in the field of micro‐nano energy harvesting and self‐powered sensing. The progress of TENGs technology with the triboelectric materials is complementary and mutually promoting. On the one hand, one of the cruxes of TENGs lies in the triboelectric materials, which have a decisive impact on their performance. On the other hand, as the research and application of TENGs continue to deepen, higher demands are placed on triboelectric materials, which in turn promotes the advancement of the entire material system as well as the fields of materials science and physics. This work aims to delve into the characteristics, types, preferred choices, and modification treatments of triboelectric materials on the performances of TENGs, hoping to provide guidance and insights for future research and applications.