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The capacity to self‐detect and locate damage to underwater infrastructure in emergencies is vital, as materials and technologies that securely facilitate energy and information transmission are crucial in several fields. Herein, the development of a multifunctional supramolecular ionogel (SIG) and SIG‐based devices for use in detecting and locating damage to underwater infrastructure is reported...
Materials are inevitable to suffer from mechanical damage such as scratches or cuts when they are exposed to the marine environment. Herein, a hierarchical composite material is fabricated, which demonstrates the self‐reporting and self‐healing behaviors in aquatic environments including deionized water, seawater, acidic, and basic aqueous solutions. The composite material is constructed of a five‐layer...
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