Progress in Triboelectric Materials: Toward High Performance and Widespread Applications

Triboelectric phenomena can be observed everywhere; however, they are consistently omitted from applications. Although almost all substances exhibit a triboelectrification effect in daily life, chemists as well as materials scientists have performed extensive investigations in both the aspects of ba...

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Veröffentlicht in:Advanced functional materials 2019-10, Vol.29 (41), p.n/a
Hauptverfasser: Yu, Aifang, Zhu, Yaxing, Wang, Wei, Zhai, Junyi
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container_issue 41
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container_title Advanced functional materials
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creator Yu, Aifang
Zhu, Yaxing
Wang, Wei
Zhai, Junyi
description Triboelectric phenomena can be observed everywhere; however, they are consistently omitted from applications. Although almost all substances exhibit a triboelectrification effect in daily life, chemists as well as materials scientists have performed extensive investigations in both the aspects of basic science and practical applications to promote the development of triboelectric nanogenerators (TENGs). Here, a detailed survey of materials engineering for high triboelectric performance and multifunctional materials toward specific applications is summarized, including constructing micro/nanostructures, chemically modifying the frication surface, modulating bulk friction materials, the mechanism for improved performance, and preparing materials for implantable medical devices, bionic skin, and wearable electronic devices. Moreover, an in depth discussion of the current challenges and future efforts for strengthening the performance of TENGs is elaborated in detail, which will better guide new researchers toward a deeper understanding of and explorations about TENGs. A detailed survey of materials engineering for high triboelectric performance and multifunctional materials toward specific applications is summarized. Moreover, an in‐depth discussion of the current challenges and future efforts for strengthening the performance of triboelectric nanogenerators is provided.
doi_str_mv 10.1002/adfm.201900098
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subjects Bionics
Chemists
Electric power generation
Electronic devices
Materials engineering
Materials science
Medical devices
Medical electronics
Medical equipment
Medical materials
micro/nanostructures
molecular surface functionalization
Multifunctional materials
multifunctional triboelectric materials
Nanogenerators
Organic chemistry
Skin
triboelectric charge density
triboelectric nanogenerator
title Progress in Triboelectric Materials: Toward High Performance and Widespread Applications
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