Nanofibrous PAN‐PDMS Films‐Based High‐Performance Triboelectric Artificial Whisker for Self‐Powered Obstacle Detection

Abstract: Avoiding collisions is a key necessity for any autonomous mobile robot, and obstacle mapping enables the robot to manoeuvre in an uncharted area. In this era of the Internet of Things (IoT), with the emerging need for a multitude of sensors, adopting self‐powered technologies is more practically viable than batteries for powering the same. Here, with the fabrication of a triboelectric artificial whisker (TAW), we demonstrate a self‐powered obstacle detection via tactile perception. The mechanical contact with … Show more

“…Because the sensors used in wearable devices need to be characterized by small size and lightweight, the size and weight of the battery is a challenge in the design of wearable devices. [10][11][12][13][14][15][16][17] TENG is a small and lightweight device that can effectively collect the mechanical energy generated by human body motion. [18,19] TENG utilizes the friction charge effect between different interfaces and the principle of electrostatic induction to generate electricity.…”

Wireless Sensing System Based on Biodegradable Triboelectric Nanogenerator for Evaluating Sports and Sleep Respiratory

“…Because the sensors used in wearable devices need to be characterized by small size and lightweight, the size and weight of the battery is a challenge in the design of wearable devices. [10][11][12][13][14][15][16][17] TENG is a small and lightweight device that can effectively collect the mechanical energy generated by human body motion. [18,19] TENG utilizes the friction charge effect between different interfaces and the principle of electrostatic induction to generate electricity.…”

Wireless Sensing System Based on Biodegradable Triboelectric Nanogenerator for Evaluating Sports and Sleep Respiratory