Advances in electrospun nanofibers for triboelectric nanogenerators

Electrospun nanofiber demonstrates advantages in permeability, surface wettability, mechanical figurability and function integrability, capable of catering to the multi-scenario application requirements of triboelectric nano -generators (TENG) for distributed energy management, especially significant for energy harvesting and self -powered sensing in wearables and bio-interface electronics. In this article, we systematically reviewed the lat-est progress of electrospun nanofiber based triboelectric active layer and functional conductors in terms of working mechanism, fabrication strategies, geometrics tunability, function integrations, and performance enhancement mechanism, as well as the corresponding nanofiber TENG device advantages in stretchability, permeability, wettability, attachability, sterilization and degradability. Further, some representative applications of nanofiber TENG in energy harvesting, self-powered sensing, and interactive interfacing were summarized to highlight the superiorities of electrospun nanofiber. Accordingly, the existing challenges and promising solutions for future nanofiber TENG were proposed and highlighted, presenting a roadmap to hopefully steer the devel-opment of nanofibers for self-powered interface applications.

Automated summary

Electrospun nanofiber is highly beneficial in various applications, specifically in distributed energy management, wearables, and bio-interface electronics. This article provides a comprehensive review of the latest progress in electrospun nanofiber-based triboelectric active layers and functional conductors, highlighting their advantages and potential challenges.