Litcius/Paper detail

A smart <scp>mechanical‐energy</scp> harvesting and <scp>self‐heating</scp> textile device for <scp>photo‐thermal</scp> energy utilization

Hui Wang, Yunfei Yu, Xiaoyu Yang, Shuo Wang, Jing Ge, Qingbin Yang, Xinlei Zhou, Guoqiang Zheng, Kun Dai, Xingyi Dai, Yiyu Feng, Long‐Biao Huang, Wei Feng

2023EcoMat21 citationsDOIOpen Access PDF

Abstract

Abstract A smart textile that could harvest mechanical‐energy for photo‐thermal energy utilization facilitates the development of a flexible self‐heating wearable device. This study presents novel triboelectric materials with a dynamic‐bond‐cross‐linking azobenzene‐based polymer (PAzo‐M) with diverse metal ions. The flexible nylon fabric coated with PAzo‐M (NF@PAzo‐M) serves as a friction layer of the photothermal triboelectric nanogenerator (PT‐TENG) to harvest human mechanical energy. The prepared PT‐TENG could exhibit a maximum open‐circuit voltage of up to 188.8 V with excellent electron loss capability because of its minimum vertical electron affinity of internal ion. And it can harvest mechanical energy from human motion (0.5–1 Hz) to drive the self‐powering irradiation of ultraviolet light or visible light, leading to the reversible isomerization of NF@PAzo‐M. The NF@PAzo‐M textile cyclically utilizes photo‐thermal energy for self‐heating. These results suggest new opportunities to harvest human mechanical energy for self‐powering multifunctional wearable devices for functions. image

Topics & Concepts

Triboelectric effectMaterials scienceMechanical energyNanogeneratorEnergy harvestingThermal energyOptoelectronicsNanotechnologyComposite materialEnergy (signal processing)PhysicsPiezoelectricityPower (physics)Quantum mechanicsAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsSupercapacitor Materials and Fabrication