Recent Advances in Triboelectric Nanogenerators: From Technological Progress to Commercial Applications

Dongwhi Choi; Younghoon Lee; Zong Hong Lin; Sumin Cho; Miso Kim; Chi Kit Ao; Siowling Soh; Changwan Sohn; Chang Kyu Jeong; Jeongwan Lee; Minbaek Lee; Seungah Lee; Jungho Ryu; Parag Parashar; Yujang Cho; Jaewan Ahn; Il Doo Kim; Feng Jiang; Pooi See Lee; Gaurav Khandelwal; Sang Jae Kim; Hyun Soo Kim; Hyun Cheol Song; Minje Kim; Junghyo Nah; Wook Kim; Habtamu Gebeyehu Menge; Yong Tae Park; Wei Xu; Jianhua Hao; Hyosik Park; Ju Hyuck Lee; Dong Min Lee; Sang Woo Kim; Ji Young Park; Haixia Zhang; Yunlong Zi; Ru Guo; Jia Cheng; Ze Yang; Yannan Xie; Sangmin Lee; Jihoon Chung; Il Kwon Oh; Ji Seok Kim; Tinghai Cheng; Qi Gao; Gang Cheng; Guangqin Gu; Minseob Shim; Jeehoon Jung; Changwoo Yun; Chi Zhang; Guoxu Liu; Yufeng Chen; Suhan Kim; Xiangyu Chen; Jun Hu; Xiong Pu; Zi Hao Guo; Xudong Wang; Jun Chen; Xiao Xiao; Xing Xie; Mourin Jarin; Hulin Zhang; Ying Chih Lai; Tianyiyi He; Hakjeong Kim; Inkyu Park; Junseong Ahn; Nghia Dinh Huynh; Ya Yang; Zhong Lin Wang; Jeong Min Baik; Dukhyun Choi

doi:10.1021/acsnano.2c12458

Recent Advances in Triboelectric Nanogenerators: From Technological Progress to Commercial Applications

Dongwhi Choi, Younghoon Lee, Zong Hong Lin, Sumin Cho, Miso Kim, Chi Kit Ao, Siowling Soh, Changwan Sohn, Chang Kyu Jeong, Jeongwan Lee, Minbaek Lee, Seungah Lee, Jungho Ryu, Parag Parashar, Yujang Cho, Jaewan Ahn, Il Doo Kim, Feng Jiang, Pooi See Lee, Gaurav KhandelwalSang Jae Kim, Hyun Soo Kim, Hyun Cheol Song, Minje Kim, Junghyo Nah, Wook Kim, Habtamu Gebeyehu Menge, Yong Tae Park, Wei Xu, Jianhua Hao, Hyosik Park, Ju Hyuck Lee, Dong Min Lee, Sang Woo Kim, Ji Young Park, Haixia Zhang, Yunlong Zi, Ru Guo, Jia Cheng, Ze Yang, Yannan Xie, Sangmin Lee, Jihoon Chung, Il Kwon Oh, Ji Seok Kim, Tinghai Cheng, Qi Gao, Gang Cheng, Guangqin Gu, Minseob Shim, Jeehoon Jung, Changwoo Yun, Chi Zhang, Guoxu Liu, Yufeng Chen, Suhan Kim, Xiangyu Chen, Jun Hu, Xiong Pu, Zi Hao Guo, Xudong Wang, Jun Chen, Xiao Xiao, Xing Xie, Mourin Jarin, Hulin Zhang, Ying Chih Lai, Tianyiyi He, Hakjeong Kim, Inkyu Park, Junseong Ahn, Nghia Dinh Huynh, Ya Yang, Zhong Lin Wang, Jeong Min Baik, Dukhyun Choi

Department of Energy and Science and Engineering

Research output: Contribution to journal › Review article › peer-review

279 Scopus citations

Abstract

Serious climate changes and energy-related environmental problems are currently critical issues in the world. In order to reduce carbon emissions and save our environment, renewable energy harvesting technologies will serve as a key solution in the near future. Among them, triboelectric nanogenerators (TENGs), which is one of the most promising mechanical energy harvesters by means of contact electrification phenomenon, are explosively developing due to abundant wasting mechanical energy sources and a number of superior advantages in a wide availability and selection of materials, relatively simple device configurations, and low-cost processing. Significant experimental and theoretical efforts have been achieved toward understanding fundamental behaviors and a wide range of demonstrations since its report in 2012. As a result, considerable technological advancement has been exhibited and it advances the timeline of achievement in the proposed roadmap. Now, the technology has reached the stage of prototype development with verification of performance beyond the lab scale environment toward its commercialization. In this review, distinguished authors in the world worked together to summarize the state of the art in theory, materials, devices, systems, circuits, and applications in TENG fields. The great research achievements of researchers in this field around the world over the past decade are expected to play a major role in coming to fruition of unexpectedly accelerated technological advances over the next decade.

Original language	English
Pages (from-to)	11087-11219
Number of pages	133
Journal	ACS Nano
Volume	17
Issue number	12
DOIs	https://doi.org/10.1021/acsnano.2c12458
State	Published - 27 Jun 2023

Bibliographical note

Publisher Copyright:
© 2023 The Authors. Published by American Chemical Society

Keywords

Triboelectric nanogenerator
applications
circuits
device designs
energy harvesting
mechanical energy
mechanical systems
tribomaterials

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1021/acsnano.2c12458

Cite this

Choi, D., Lee, Y., Lin, Z. H., Cho, S., Kim, M., Ao, C. K., Soh, S., Sohn, C., Jeong, C. K., Lee, J., Lee, M., Lee, S., Ryu, J., Parashar, P., Cho, Y., Ahn, J., Kim, I. D., Jiang, F., Lee, P. S., ... Choi, D. (2023). Recent Advances in Triboelectric Nanogenerators: From Technological Progress to Commercial Applications. ACS Nano, 17(12), 11087-11219. https://doi.org/10.1021/acsnano.2c12458

@article{44e7ddb1f88b4088b3d6cc696012edf4,

title = "Recent Advances in Triboelectric Nanogenerators: From Technological Progress to Commercial Applications",

abstract = "Serious climate changes and energy-related environmental problems are currently critical issues in the world. In order to reduce carbon emissions and save our environment, renewable energy harvesting technologies will serve as a key solution in the near future. Among them, triboelectric nanogenerators (TENGs), which is one of the most promising mechanical energy harvesters by means of contact electrification phenomenon, are explosively developing due to abundant wasting mechanical energy sources and a number of superior advantages in a wide availability and selection of materials, relatively simple device configurations, and low-cost processing. Significant experimental and theoretical efforts have been achieved toward understanding fundamental behaviors and a wide range of demonstrations since its report in 2012. As a result, considerable technological advancement has been exhibited and it advances the timeline of achievement in the proposed roadmap. Now, the technology has reached the stage of prototype development with verification of performance beyond the lab scale environment toward its commercialization. In this review, distinguished authors in the world worked together to summarize the state of the art in theory, materials, devices, systems, circuits, and applications in TENG fields. The great research achievements of researchers in this field around the world over the past decade are expected to play a major role in coming to fruition of unexpectedly accelerated technological advances over the next decade.",

keywords = "Triboelectric nanogenerator, applications, circuits, device designs, energy harvesting, mechanical energy, mechanical systems, tribomaterials",

author = "Dongwhi Choi and Younghoon Lee and Lin, {Zong Hong} and Sumin Cho and Miso Kim and Ao, {Chi Kit} and Siowling Soh and Changwan Sohn and Jeong, {Chang Kyu} and Jeongwan Lee and Minbaek Lee and Seungah Lee and Jungho Ryu and Parag Parashar and Yujang Cho and Jaewan Ahn and Kim, {Il Doo} and Feng Jiang and Lee, {Pooi See} and Gaurav Khandelwal and Kim, {Sang Jae} and Kim, {Hyun Soo} and Song, {Hyun Cheol} and Minje Kim and Junghyo Nah and Wook Kim and Menge, {Habtamu Gebeyehu} and Park, {Yong Tae} and Wei Xu and Jianhua Hao and Hyosik Park and Lee, {Ju Hyuck} and Lee, {Dong Min} and Kim, {Sang Woo} and Park, {Ji Young} and Haixia Zhang and Yunlong Zi and Ru Guo and Jia Cheng and Ze Yang and Yannan Xie and Sangmin Lee and Jihoon Chung and Oh, {Il Kwon} and Kim, {Ji Seok} and Tinghai Cheng and Qi Gao and Gang Cheng and Guangqin Gu and Minseob Shim and Jeehoon Jung and Changwoo Yun and Chi Zhang and Guoxu Liu and Yufeng Chen and Suhan Kim and Xiangyu Chen and Jun Hu and Xiong Pu and Guo, {Zi Hao} and Xudong Wang and Jun Chen and Xiao Xiao and Xing Xie and Mourin Jarin and Hulin Zhang and Lai, {Ying Chih} and Tianyiyi He and Hakjeong Kim and Inkyu Park and Junseong Ahn and Huynh, {Nghia Dinh} and Ya Yang and Wang, {Zhong Lin} and Baik, {Jeong Min} and Dukhyun Choi",

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Choi, D, Lee, Y, Lin, ZH, Cho, S, Kim, M, Ao, CK, Soh, S, Sohn, C, Jeong, CK, Lee, J, Lee, M, Lee, S, Ryu, J, Parashar, P, Cho, Y, Ahn, J, Kim, ID, Jiang, F, Lee, PS, Khandelwal, G, Kim, SJ, Kim, HS, Song, HC, Kim, M, Nah, J, Kim, W, Menge, HG, Park, YT, Xu, W, Hao, J, Park, H, Lee, JH, Lee, DM, Kim, SW, Park, JY, Zhang, H, Zi, Y, Guo, R, Cheng, J, Yang, Z, Xie, Y, Lee, S, Chung, J, Oh, IK, Kim, JS, Cheng, T, Gao, Q, Cheng, G, Gu, G, Shim, M, Jung, J, Yun, C, Zhang, C, Liu, G, Chen, Y, Kim, S, Chen, X, Hu, J, Pu, X, Guo, ZH, Wang, X, Chen, J, Xiao, X, Xie, X, Jarin, M, Zhang, H, Lai, YC, He, T, Kim, H, Park, I, Ahn, J, Huynh, ND, Yang, Y, Wang, ZL, Baik, JM & Choi, D 2023, 'Recent Advances in Triboelectric Nanogenerators: From Technological Progress to Commercial Applications', ACS Nano, vol. 17, no. 12, pp. 11087-11219. https://doi.org/10.1021/acsnano.2c12458

TY - JOUR

T1 - Recent Advances in Triboelectric Nanogenerators

T2 - From Technological Progress to Commercial Applications

AU - Choi, Dongwhi

AU - Lee, Younghoon

AU - Lin, Zong Hong

AU - Cho, Sumin

AU - Kim, Miso

AU - Ao, Chi Kit

AU - Soh, Siowling

AU - Sohn, Changwan

AU - Jeong, Chang Kyu

AU - Lee, Jeongwan

AU - Lee, Minbaek

AU - Lee, Seungah

AU - Ryu, Jungho

AU - Parashar, Parag

AU - Cho, Yujang

AU - Ahn, Jaewan

AU - Kim, Il Doo

AU - Jiang, Feng

AU - Lee, Pooi See

AU - Khandelwal, Gaurav

AU - Kim, Sang Jae

AU - Kim, Hyun Soo

AU - Song, Hyun Cheol

AU - Kim, Minje

AU - Nah, Junghyo

AU - Kim, Wook

AU - Menge, Habtamu Gebeyehu

AU - Park, Yong Tae

AU - Xu, Wei

AU - Hao, Jianhua

AU - Park, Hyosik

AU - Lee, Ju Hyuck

AU - Lee, Dong Min

AU - Kim, Sang Woo

AU - Park, Ji Young

AU - Zhang, Haixia

AU - Zi, Yunlong

AU - Guo, Ru

AU - Cheng, Jia

AU - Yang, Ze

AU - Xie, Yannan

AU - Lee, Sangmin

AU - Chung, Jihoon

AU - Oh, Il Kwon

AU - Kim, Ji Seok

AU - Cheng, Tinghai

AU - Gao, Qi

AU - Cheng, Gang

AU - Gu, Guangqin

AU - Shim, Minseob

AU - Jung, Jeehoon

AU - Yun, Changwoo

AU - Zhang, Chi

AU - Liu, Guoxu

AU - Chen, Yufeng

AU - Kim, Suhan

AU - Chen, Xiangyu

AU - Hu, Jun

AU - Pu, Xiong

AU - Guo, Zi Hao

AU - Wang, Xudong

AU - Chen, Jun

AU - Xiao, Xiao

AU - Xie, Xing

AU - Jarin, Mourin

AU - Zhang, Hulin

AU - Lai, Ying Chih

AU - He, Tianyiyi

AU - Kim, Hakjeong

AU - Park, Inkyu

AU - Ahn, Junseong

AU - Huynh, Nghia Dinh

AU - Yang, Ya

AU - Wang, Zhong Lin

AU - Baik, Jeong Min

AU - Choi, Dukhyun

PY - 2023/6/27

Y1 - 2023/6/27

N2 - Serious climate changes and energy-related environmental problems are currently critical issues in the world. In order to reduce carbon emissions and save our environment, renewable energy harvesting technologies will serve as a key solution in the near future. Among them, triboelectric nanogenerators (TENGs), which is one of the most promising mechanical energy harvesters by means of contact electrification phenomenon, are explosively developing due to abundant wasting mechanical energy sources and a number of superior advantages in a wide availability and selection of materials, relatively simple device configurations, and low-cost processing. Significant experimental and theoretical efforts have been achieved toward understanding fundamental behaviors and a wide range of demonstrations since its report in 2012. As a result, considerable technological advancement has been exhibited and it advances the timeline of achievement in the proposed roadmap. Now, the technology has reached the stage of prototype development with verification of performance beyond the lab scale environment toward its commercialization. In this review, distinguished authors in the world worked together to summarize the state of the art in theory, materials, devices, systems, circuits, and applications in TENG fields. The great research achievements of researchers in this field around the world over the past decade are expected to play a major role in coming to fruition of unexpectedly accelerated technological advances over the next decade.

AB - Serious climate changes and energy-related environmental problems are currently critical issues in the world. In order to reduce carbon emissions and save our environment, renewable energy harvesting technologies will serve as a key solution in the near future. Among them, triboelectric nanogenerators (TENGs), which is one of the most promising mechanical energy harvesters by means of contact electrification phenomenon, are explosively developing due to abundant wasting mechanical energy sources and a number of superior advantages in a wide availability and selection of materials, relatively simple device configurations, and low-cost processing. Significant experimental and theoretical efforts have been achieved toward understanding fundamental behaviors and a wide range of demonstrations since its report in 2012. As a result, considerable technological advancement has been exhibited and it advances the timeline of achievement in the proposed roadmap. Now, the technology has reached the stage of prototype development with verification of performance beyond the lab scale environment toward its commercialization. In this review, distinguished authors in the world worked together to summarize the state of the art in theory, materials, devices, systems, circuits, and applications in TENG fields. The great research achievements of researchers in this field around the world over the past decade are expected to play a major role in coming to fruition of unexpectedly accelerated technological advances over the next decade.

KW - Triboelectric nanogenerator

KW - applications

KW - circuits

KW - device designs

KW - energy harvesting

KW - mechanical energy

KW - mechanical systems

KW - tribomaterials

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DO - 10.1021/acsnano.2c12458

M3 - Review article

C2 - 37219021

AN - SCOPUS:85162209554

SN - 1936-0851

VL - 17

SP - 11087

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JO - ACS Nano

JF - ACS Nano

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ER -

Recent Advances in Triboelectric Nanogenerators: From Technological Progress to Commercial Applications

Abstract

Bibliographical note

Keywords

UN SDGs

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