纳米发生器
材料科学
佩多:嘘
半导体
数码产品
摩擦电效应
光电子学
纳米技术
极限抗拉强度
可伸缩电子设备
电气工程
聚合物
复合材料
压电
工程类
作者
Guoxu Liu,Ruifei Luan,Youchao Qi,Likun Gong,Jie Cao,Zhihao Wang,Feng Liu,Jianhua Zeng,Xinlong Huang,Yuhan Qin,Sicheng Dong,Yuan Feng,Long‐Biao Huang,Chi Zhang
出处
期刊:Nano Energy
[Elsevier BV]
日期:2022-12-05
卷期号:106: 108075-108075
被引量:28
标识
DOI:10.1016/j.nanoen.2022.108075
摘要
Obtaining a wear-resistant, high-output, flexible direct current (DC) friction energy harvester is quite important for implementing self-powered portable electronic devices and Internet of Things (IoT). In this work, a direct current flexible textile organic tribovoltaic nanogenerator (FT-OTG) is reported, which is consisted of blended film of 11.11% poly(3,4-ethylenedioxythiophene): poly(styrene sulfonate) (PEDOT: PSS) and 88.89% polyvinyl alcohol (PVA), a hydrophilic conductive ink, a hydrophobic conductive textile and Al slider. The working mechanism of OTG is that after absorbing friction energy, abound electron-hole pairs are excited at the metal-semiconductor interface. These carriers move directionally under the joint drive of electrostatic field and the built-in electric field to form a current. After PVA doping, the output performance of DC-OTG, including open-circuit voltage and short-circuit current, is improved 5.6 times and 4.2 times, respectively. Furthermore, the mechanical properties of blended film, such as wear resistance, elongation and tensile strength, are improved, among which elongation at break is increased by 8 times and tensile strength increased by 3.2 times. By simplify series connecting, 3 FT-OTGs can constantly power portable electronics, like electronic watch, thermometer and calculator, respectively. This work provides an effective way for simultaneously enhanced output performance and mechanical properties of FT-OTG, which is expected to be a robust way for harvesting friction energy for self-powered electronics device and IoT sensors.
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