Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting
Facile integration of foldability, transparency, and waterproofness in multi-modality triboelectric nanogenerator (TENG) applications is interesting. Here, we realized a reconfigurable origami transparent cellulose electronic paper (CEP) as TENG for energy harvesting from water, wind, and human moti...
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sg-ntu-dr.10356-1624952022-10-25T06:28:55Z Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting Xiong, Jiaqing Li, Yi Gao, Dace Chen, Jian Parida, Kaushik Lee, Pooi See School of Materials Science and Engineering Engineering::Materials Origami Trielectronic Nanogenerator Facile integration of foldability, transparency, and waterproofness in multi-modality triboelectric nanogenerator (TENG) applications is interesting. Here, we realized a reconfigurable origami transparent cellulose electronic paper (CEP) as TENG for energy harvesting from water, wind, and human motion. A unique silver nanowires-bundle mesh (AgBM) was embedded into a micron-thick ethyl cellulose paper by spraying and transfer process. Operating in single-electrode mode, the CEP-TENG can harvest energy from human motions by tapping, scavenge wind energy via mechanical interaction, as well as harvest energy from water, including acidic and alkaline water in virtue of protection by an extra hydrophobic cellulose oleoyl ester nanocoating. Origami capability enables the CEP-TENG to be reconfigurable in three-dimensional mode to maximize the energy harvesting efficiency. The CEP-TENG energy window was demonstrated under the flowing water to achieve a self-powered lighting display. CEP-TENG realizes the all-weather and multi-modality energy harvesting, promising for wearable and attachable power sources, self-powered applications such as outdoor displays, windows, decorative accessories, and life-saving appliances. Ministry of Education (MOE) National Research Foundation (NRF) This work was supported by the National Research Foundation Investigatorship (NRF-NRFI201605) under the National Research Foundation, Prime Minister’s Office, Singapore, and the Ministry of Education AcRF Tier grant RT15/20. 2022-10-25T06:28:55Z 2022-10-25T06:28:55Z 2022 Journal Article Xiong, J., Li, Y., Gao, D., Chen, J., Parida, K. & Lee, P. S. (2022). Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting. ChemNanoMat, 8(4), e202200034-. https://dx.doi.org/10.1002/cnma.202200034 2199-692X https://hdl.handle.net/10356/162495 10.1002/cnma.202200034 2-s2.0-85125564923 4 8 e202200034 en NRF-NRFI201605 RT15/20 ChemNanoMat © 2022 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Materials Origami Trielectronic Nanogenerator Xiong, Jiaqing Li, Yi Gao, Dace Chen, Jian Parida, Kaushik Lee, Pooi See Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting |
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Facile integration of foldability, transparency, and waterproofness in multi-modality triboelectric nanogenerator (TENG) applications is interesting. Here, we realized a reconfigurable origami transparent cellulose electronic paper (CEP) as TENG for energy harvesting from water, wind, and human motion. A unique silver nanowires-bundle mesh (AgBM) was embedded into a micron-thick ethyl cellulose paper by spraying and transfer process. Operating in single-electrode mode, the CEP-TENG can harvest energy from human motions by tapping, scavenge wind energy via mechanical interaction, as well as harvest energy from water, including acidic and alkaline water in virtue of protection by an extra hydrophobic cellulose oleoyl ester nanocoating. Origami capability enables the CEP-TENG to be reconfigurable in three-dimensional mode to maximize the energy harvesting efficiency. The CEP-TENG energy window was demonstrated under the flowing water to achieve a self-powered lighting display. CEP-TENG realizes the all-weather and multi-modality energy harvesting, promising for wearable and attachable power sources, self-powered applications such as outdoor displays, windows, decorative accessories, and life-saving appliances. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Xiong, Jiaqing Li, Yi Gao, Dace Chen, Jian Parida, Kaushik Lee, Pooi See |
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Article |
author |
Xiong, Jiaqing Li, Yi Gao, Dace Chen, Jian Parida, Kaushik Lee, Pooi See |
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Xiong, Jiaqing |
title |
Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting |
title_short |
Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting |
title_full |
Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting |
title_fullStr |
Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting |
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Reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting |
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reconfigurable origami transparent cellulose triboelectric paper for multi-modal energy harvesting |
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2022 |
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https://hdl.handle.net/10356/162495 |
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1749179250670305280 |