Ultrafast underwater self-healing piezo-ionic elastomer via dynamic hydrophobic-hydrolytic domainsopen access
- Authors
- Kong, Zhengyang; Boahen, Elvis K.; Kim, Dong Jun; Li, Fenglong; Kim, Joo Sung; Kweon, Hyukmin; Kim, So Young; Choi, Hanbin; Zhu, Jin; Ying, Wu Bin; Kim, Do Hwan
- Issue Date
- Mar-2024
- Publisher
- Nature Publishing Group
- Citation
- Nature Communications, v.15, no.1, pp 1 - 12
- Pages
- 12
- Indexed
- SCIE
SCOPUS
- Journal Title
- Nature Communications
- Volume
- 15
- Number
- 1
- Start Page
- 1
- End Page
- 12
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195215
- DOI
- 10.1038/s41467-024-46334-4
- ISSN
- 2041-1723
2041-1723
- Abstract
- The development of advanced materials capable of autonomous self-healing and mechanical stimulus sensing in aquatic environments holds great promise for applications in underwater soft electronics, underwater robotics, and water-resistant human-machine interfaces. However, achieving superior autonomous self-healing properties and effective sensing simultaneously in an aquatic environment is rarely feasible. Here, we present an ultrafast underwater molecularly engineered self-healing piezo-ionic elastomer inspired by the cephalopod’s suckers, which possess self-healing properties and mechanosensitive ion channels. Through strategic engineering of hydrophobic C–F groups, hydrolytic boronate ester bonds, and ions, the material achieves outstanding self-healing efficiencies, with speeds of 94.5% (9.1 µm/min) in air and 89.6% (13.3 µm/min) underwater, coupled with remarkable pressure sensitivity (18.1 kPa–1) for sensing performance. Furthermore, integration of this mechanosensitive device into an underwater submarine for signal transmission and light emitting diode modulation demonstrates its potential for underwater robotics and smarter human-machine interactions.
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