Transparent and stretchable high-output triboelectric nanogenerator for high-efficiency self-charging energy storage systems

摩擦电效应 纳米发生器 材料科学 电池(电) 储能 能量收集 光电子学 电压 电气工程 数码产品 纳米技术 功率(物理) 复合材料 压电 工程类 物理 量子力学
作者
Kequan Xia,Yang Tian,Jiangming Fu,Zhiyuan Zhu,Jianguo Lü,Zhenyun Zhao,Haichao Tang,Zhizhen Ye,Zhiwei Xu
出处
期刊:Nano Energy [Elsevier BV]
卷期号:87: 106210-106210 被引量:64
标识
DOI:10.1016/j.nanoen.2021.106210
摘要

Rapid development in flexible and stretchable electronics poses the challenge for stretchable and multifunctional power devices. Here, we firstly report a fully-transparent and stretchable triboelectric nanogenerator (EC-TENG) based on edible grade silica gel (EGSG) and crystal mud (CM) to enable both biomechanical energy harvesting and human posture sensing. And We also invert a novel Na-ion battery based on FeSe 2 , which can realize the efficient storage of micro-electric energy. Under the hand with nitrile glove pressing frequency of 5 Hz, the short-circuit current ( I sc ), open-circuit voltage ( V oc ), and transfer charge of EC-TENG can reach 25.96 µA, 1400 V, and 150 nC, respectively. The maximum output power of EC-TENG can reach 7.84 mW with a match load of 40 MΩ. The EC-TENG device exhibits excellent stretchability and deformability under extreme conditions, including foldability, stretchability, distortion, and washability. Significantly, the EC-TENG can generate electricity by deforming itself and under non-contact conditions after friction with other triboelectric materials. From the experimental results, the EC-TENG can charge the Na-ion battery to 3 V in 13 h, and the electrical energy stored in the Na-ion battery can drive the temperature/humidity sensor. This design achieves the integration of power generation devices, sensor devices, and energy storage devices, and it will promote the development of all-in-one self-powered flexible wearable electronics. • We firstly proposed a transparent and stretchable triboelectric nanogenerator based on edible grade silica gel (EGSG) and crystal mud (CM) to enable both biomechanical energy harvesting and human posture sensing. • The EC-TENG device exhibits excellent stretchability and deformability under extreme conditions, including foldability, stretchability, distortion, and washability. • Significantly, the EC-TENG can generate electricity by deforming itself and under non-contact conditions after friction with other triboelectric materials. • We also invert a novel Na-ion battery based on FeSe2, which can realize the efficient storage of micro-electric energy. • This design achieves the integration of power generation devices, sensor devices, and energy storage devices, and it will promote the development of all-in-one self-powered flexible wearable electronics.
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