Eddie Swun
Shared posts
[ASAP] Highly Reflective and Transparent Shell-Index-Matched Colloidal Crystals of Core–Shell Particles for Stacked RGB Films
[ASAP] Synthesis of Pyrene-Based Covalent Organic Frameworks for Photocatalytic Tetracycline Degradation
[ASAP] Stepwise Multi-Cross-Linking Bioink for 3D Embedded Bioprinting to Promote Full-Thickness Wound Healing
Liquid‐Metal‐Based Stretchable Triboelectric Nanogenerators for Flowing‐Liquid‐Based Energy Harvesting and Self‐Powered Sensor Applications
The next generation of liquid-metal-based triboelectric nanogenerator (LM-TENG) for harvesting energy from the flow of water is introduced. With its cutting-edge technology, the LM-TENG serves as a self-sustaining flow sensor, effortlessly monitoring liquid movement in pipelines and microchannels.
Abstract
In this paper, a liquid-metal-based triboelectric nanogenerator (LM-TENG) is proposed for harvesting energy from flowing water and self-powered flow sensor applications. The proposed LM-TENG mainly consists of a Galinstan working electrode that is encapsulated in a polydimethylsiloxane friction layer. The triboelectric performance of the LM-TENG is optimized as a function of flow rate and frictional layer thickness. The output performance of the optimized LM-TENG (6.2 V and 3.6 µA) is superior to that of the copper-electrode-based TENG (C-TENG, 2.4 V and 0.8 µA) at the flow rate of 2.5 L min−1. This is because the stretchability of the optimized LM-TENG is three times higher than that of the C-TENG, which increases the contact area and enhances the output performance. The optimized LM-TENG is successfully demonstrated as a self-powered flow sensor for remote monitoring of water flow in pipelines. In addition, the LM-TENG is a capable of powering more than 30 LEDs and directly powering low-power electronics (LCDs).