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Materials Nanoarchitectonics from Intrinsic Underwater Self-Healing Polymers for Soft Nanorobotics.

Created on 13 Jul 2026

Authors

Yan Song, Yanwen Hu, Qiaofang Fu, Dongxiang Chen, Jiahui Ma, Guo Liang Li

Published in

Langmuir : the ACS journal of surfaces and colloids. Jul 12, 2026. Epub Jul 12, 2026.

Abstract

Integrating a self-healing function into soft nanorobots composed of polymers can extend their lifespan, particularly in harsh marine environments. While existing strategies have explored dynamic interactions to enable underwater healing of polymer materials, significant challenges remain, owing to compromised mechanical integrity and inefficient healing in water. Herein, we report underwater self-healing polymer materials via a seawater-adaptive network reconstruction. Controlling the catechol-functionalized polymers and their microphase nanostructures could enhance mechanical strength in an aqueous environment. Upon damage, the surrounding water induced plasticization and promoted the hydrogen-bonding network reorganization of the polymer. Simultaneously, catechol groups sequestered Ca2+/Mg2+ ions from seawater, enabling a cross-linking reaction at fractured interfaces autonomously. After self-healing in artificial seawater, the soft polymer nanomaterial achieved an excellent tensile strength of 23.7 MPa. Furthermore, the strong intrinsic self-healing polymers maintained their high tensile strength in an aqueous environment. These polymers are intrinsically homogeneous, providing consistent mechanical properties and an efficient self-healing capability in aqueous environments. Hence, integrating these polymers into marine soft nanorobotics could address the challenges in the harsh conditions of the deep sea.

PMID:
42437529
Bibliographic data and abstract were imported from PubMed on 13 Jul 2026.

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