Liquid–Solid Triboelectric Nanogenerator for Bubble Energy Harvesting

Abstract Bubbles, widely distributed in nature and industry, have been extensively explored as important energy carriers. Despite notable progress, how to harvest the energy inherent in small bubbles remains a significant challenge. Herein, a bubble driven triboelectric nanogenerator (BD‐TENG) that can scavenge energy directly and efficiently from bubbles is explored. The BD‐TENG can generate sustained voltages of up to −120 V when small air bubbles rise in a polytetrafluoroethylene (PTFE) tube filled with deionized water. Furthermore, the effects of the tube diameter, electrode length, and bubble volume based on the harvest activity are also investigated. As a proof of concept, it is demonstrated that the BD‐TENG can be utilized to illuminate four blue LEDs. Notably, the conclusion of this research work demonstrates an innovative roadmap for bubble energy harvesting in liquid media.