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A dynamically stable self-healable wire based on mechanical–electrical coupling

Shuo Wang, Zhaofeng Ouyang, Shitao Geng, Yan Wang, Xiaoju Zhao, Bin Yuan, Xiao Zhang, Qiuchen Xu, Chengqiang Tang, Shanshan Tang, H. Miao, Huisheng Peng, Hao Sun

2024National Science Review17 citationsDOIOpen Access PDF

Abstract

The rise in wearable electronics has witnessed the advancement of self-healable wires, which are capable of recovering mechanical and electrical properties upon structural damage. However, their highly fluctuating electrical resistances in the range of hundreds to thousands of ohms under dynamic conditions such as bending, pressing, stretching and tremoring may seriously degrade the precision and continuity of the resulting electronic devices, thus severely hindering their wearable applications. Here, we report a new family of self-healable wires with high strengths and stable electrical conductivities under dynamic conditions, inspired by mechanical-electrical coupling of the myelinated axon in nature. Our self-healable wire based on mechanical-electrical coupling between the structural and conductive components has significantly improved the electrical stability under dynamic scenarios, enabling precise monitoring of human health status and daily activities, even in the case of limb tremors from simulated Parkinson's disease. Our mechanical-electrical coupling strategy opens a new avenue for the development of dynamically stable electrodes and devices toward real-world wearable applications.

Topics & Concepts

Materials scienceCoupling (piping)Composite materialEngineering physicsEngineeringAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting MaterialsPolymer composites and self-healing
A dynamically stable self-healable wire based on mechanical–electrical coupling | Litcius