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Bioinspired soft robots for deep-sea exploration

The deep ocean, Earth’s untouched expanse, presents immense challenges for exploration due to its extreme pressure, temperature, and darkness. Unlike traditional marine robots that require specialized metallic vessels for protection, deep-sea species thrive without such cumbersome pressure-resistant...

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Main Authors: Li, Guorui, Wong, Tuck Whye, Shih, Benjamin, Guo, Chunyu, Wang, Luwen, Liu, Jiaqi, Wang, Tao, Liu, Xiaobo, Yan, Jiayao, Wu, Baosheng, Yu, Fajun, Chen, Yunsai, Liang, Yiming, Xue, Yaoting, Wang, Chengjun, He, Shunping, Li, Wen, Tolley, Michael T., Zhang, A. Man, Laschi, Cecilia, Li, Tiefeng
Format: Article
Language:English
Published: Nature Portfolio 2023
Subjects:
Q Science (General)
Online Access:http://eprints.utm.my/106027/1/WongTuckWhye2023_BioinspiredSoftRobotsforDeepSea.pdf
http://eprints.utm.my/106027/
http://dx.doi.org/10.1038/s41467-023-42882-3
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id my.utm.106027
record_format eprints
spelling my.utm.1060272024-05-29T06:38:21Z http://eprints.utm.my/106027/ Bioinspired soft robots for deep-sea exploration Li, Guorui Wong, Tuck Whye Shih, Benjamin Guo, Chunyu Wang, Luwen Liu, Jiaqi Wang, Tao Liu, Xiaobo Yan, Jiayao Wu, Baosheng Yu, Fajun Chen, Yunsai Liang, Yiming Xue, Yaoting Wang, Chengjun He, Shunping Li, Wen Tolley, Michael T. Zhang, A. Man Laschi, Cecilia Li, Tiefeng Q Science (General) The deep ocean, Earth’s untouched expanse, presents immense challenges for exploration due to its extreme pressure, temperature, and darkness. Unlike traditional marine robots that require specialized metallic vessels for protection, deep-sea species thrive without such cumbersome pressure-resistant designs. Their pressure-adaptive forms, unique propulsion methods, and advanced senses have inspired innovation in designing lightweight, compact soft machines. This perspective addresses challenges, recent strides, and design strategies for bioinspired deep-sea soft robots. Drawing from abyssal life, it explores the actuation, sensing, power, and pressure resilience of multifunctional deep-sea soft robots, offering game-changing solutions for profound exploration and operation in harsh conditions. Nature Portfolio 2023-12 Article PeerReviewed application/pdf en http://eprints.utm.my/106027/1/WongTuckWhye2023_BioinspiredSoftRobotsforDeepSea.pdf Li, Guorui and Wong, Tuck Whye and Shih, Benjamin and Guo, Chunyu and Wang, Luwen and Liu, Jiaqi and Wang, Tao and Liu, Xiaobo and Yan, Jiayao and Wu, Baosheng and Yu, Fajun and Chen, Yunsai and Liang, Yiming and Xue, Yaoting and Wang, Chengjun and He, Shunping and Li, Wen and Tolley, Michael T. and Zhang, A. Man and Laschi, Cecilia and Li, Tiefeng (2023) Bioinspired soft robots for deep-sea exploration. Nature Communications, 14 (1). pp. 1-10. ISSN 2041-1723 http://dx.doi.org/10.1038/s41467-023-42882-3 DOI:10.1038/s41467-023-42882-3
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic Q Science (General)
spellingShingle Q Science (General)
Li, Guorui
Wong, Tuck Whye
Shih, Benjamin
Guo, Chunyu
Wang, Luwen
Liu, Jiaqi
Wang, Tao
Liu, Xiaobo
Yan, Jiayao
Wu, Baosheng
Yu, Fajun
Chen, Yunsai
Liang, Yiming
Xue, Yaoting
Wang, Chengjun
He, Shunping
Li, Wen
Tolley, Michael T.
Zhang, A. Man
Laschi, Cecilia
Li, Tiefeng
Bioinspired soft robots for deep-sea exploration
description The deep ocean, Earth’s untouched expanse, presents immense challenges for exploration due to its extreme pressure, temperature, and darkness. Unlike traditional marine robots that require specialized metallic vessels for protection, deep-sea species thrive without such cumbersome pressure-resistant designs. Their pressure-adaptive forms, unique propulsion methods, and advanced senses have inspired innovation in designing lightweight, compact soft machines. This perspective addresses challenges, recent strides, and design strategies for bioinspired deep-sea soft robots. Drawing from abyssal life, it explores the actuation, sensing, power, and pressure resilience of multifunctional deep-sea soft robots, offering game-changing solutions for profound exploration and operation in harsh conditions.
format Article
author Li, Guorui
Wong, Tuck Whye
Shih, Benjamin
Guo, Chunyu
Wang, Luwen
Liu, Jiaqi
Wang, Tao
Liu, Xiaobo
Yan, Jiayao
Wu, Baosheng
Yu, Fajun
Chen, Yunsai
Liang, Yiming
Xue, Yaoting
Wang, Chengjun
He, Shunping
Li, Wen
Tolley, Michael T.
Zhang, A. Man
Laschi, Cecilia
Li, Tiefeng
author_facet Li, Guorui
Wong, Tuck Whye
Shih, Benjamin
Guo, Chunyu
Wang, Luwen
Liu, Jiaqi
Wang, Tao
Liu, Xiaobo
Yan, Jiayao
Wu, Baosheng
Yu, Fajun
Chen, Yunsai
Liang, Yiming
Xue, Yaoting
Wang, Chengjun
He, Shunping
Li, Wen
Tolley, Michael T.
Zhang, A. Man
Laschi, Cecilia
Li, Tiefeng
author_sort Li, Guorui
title Bioinspired soft robots for deep-sea exploration
title_short Bioinspired soft robots for deep-sea exploration
title_full Bioinspired soft robots for deep-sea exploration
title_fullStr Bioinspired soft robots for deep-sea exploration
title_full_unstemmed Bioinspired soft robots for deep-sea exploration
title_sort bioinspired soft robots for deep-sea exploration
publisher Nature Portfolio
publishDate 2023
url http://eprints.utm.my/106027/1/WongTuckWhye2023_BioinspiredSoftRobotsforDeepSea.pdf
http://eprints.utm.my/106027/
http://dx.doi.org/10.1038/s41467-023-42882-3
_version_ 1800714788506959872
score 13.211869

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