Schematic image illustrating the structure and working mechanisms of a metamaterial adhesive-integrated triboelectric nanogenerator (metaadh-teng), which integrates nonlinear cuts and a teng inte Flexible adhesive film. Credit: Advanced Functional Materials (2025). Doi: 10.1002/adfm.202506293
A new Ultra-thin, transparent film, developed by researchers at unist can generate electrical signs This Technology Paves The Way For Smart Sensors that Operate Without Batteries, with Potential Applications in Safety, Security, and Industrial Monitoring.
The film leverages the Principle of Frictional Electricity – WHERE CHAREGE TRANSFERS Occur when Two Materials Contact and then SeParete – To Produce Electrical Signals During Routine MOTINE MOTINE MOTINE MOTINELS DURINE MOTINE MOTENALS.
By integrating carefully designed cut patterns insto an adhesive film, Professor Hon Eui Jeong and His Research Team in the Department of Chief of Manchanical Engineering at UNIST HAVE CELEF Capable of Converting Mechanical Stimuli Into Detectable Electrical Outputs, While also also controlling adhesion strength.
Featuring a pattern of cuts shaped like the korean alphabet “ㄷ,” The film achieves more than 35 times higher adhesion and rooughly 13 times 13 times green great electrical output compared to conventional designs. This allows it to generate strong electrical Signals from Simple, Short Actions Like Pressing or Peeling.
Hee Jin Lee, The First Author of the study Published in Advanced Functional MaterialsExplained, “The Specific Cut Pattern Guides Crack Propagation, Enabling Rapid and Controlled Sparation that Maximizes Electrical Output. When a Crack Halts at A Junction and then Resumes Moving Mituation Direction, it produces a significant electrical signal. “
Moreover, by tuning the Orientation and Arrangement of the Cut Patterns, The Film’s Electrical and Adhesive Responses Can Be Customized Based on the Direction or Location of PELING – AADDING A Programmable DIMANT Functionality.
The researchers demonstrated practical applications, such as attaching the film to a door frame to generate a signal upon opening, which can activate a warning system. They also developed a system that detects the peeling of a picture frame before it falls, sending alerts to smartphones. Additional, when applied to a conveyor belt, the film only generates Signals during reverse rotation, enabling early detection of abnormal machinery operation and automated shutdowns.
Professor Jeong Stated, “This Technology Transforms A Simple Adhesive Film INTO A Smart, Self-Generating Sensor That Requires No Batteries. Including Wearable Sensors, Theft Prevention, and Industrial Safety Systems. “
More information:
Hee jin lee et al, metamaterial adhesives -integrated triboelectric nanogeneretors with enhanced and programmable charge generation and adhesion, Advanced Functional Materials (2025). Doi: 10.1002/adfm.202506293
Citation: Innovative Adhesive Film Harvests Electricity from Peeling, Enabling Battery-Free Sensing and Safety (2025, August 18) Retrieved 18 August 2025 from Retrieved 18 August 2025 from https://techxplore.com/news/2025-08-dhesive- harvests-ectricity- enabling-battery.html
This document is Subject to copyright. Apart from any Fair Dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
