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Rapid Self-Healing Hydrogel with Ultralow Electrical Hysteresis for Wearable Sensing

Authors
Hong, SeokkyoonPark, TaewoongLee, JunsangJi, YuhyunWalsh, JuliaYu, TianhaoPark, Jae YoungLim, JongcheonBenito Alston, ClaudiaSolorio, LuisLee, HyowonKim, Young L.Kim, Dong RipLee, Chi Hwan
Issue Date
Feb-2024
Publisher
AMER CHEMICAL SOC
Keywords
electronic skin; intermolecular interactions; self-healing hydrogels; strain gauges; wearable sensors
Citation
ACS Sensors, v.9, no.2, pp 662 - 673
Pages
12
Indexed
SCIE
SCOPUS
Journal Title
ACS Sensors
Volume
9
Number
2
Start Page
662
End Page
673
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196369
DOI
10.1021/acssensors.3c01835
ISSN
2379-3694
2379-3694
Abstract
Self-healing hydrogels are in high demand for wearable sensing applications due to their remarkable deformability, high ionic and electrical conductivity, self-adhesiveness to human skin, as well as resilience to both mechanical and electrical damage. However, these hydrogels face challenges such as delayed healing times and unavoidable electrical hysteresis, which limit their practical effectiveness. Here, we introduce a self-healing hydrogel that exhibits exceptionally rapid healing with a recovery time of less than 0.12 s and an ultralow electrical hysteresis of less than 0.64% under cyclic strains of up to 500%. This hydrogel strikes an ideal balance, without notable trade-offs, between properties such as softness, deformability, ionic and electrical conductivity, self-adhesiveness, response and recovery times, durability, overshoot behavior, and resistance to nonaxial deformations such as twisting, bending, and pressing. Owing to this unique combination of features, the hydrogel is highly suitable for long-term, durable use in wearable sensing applications, including monitoring body movements and electrophysiological activities on the skin.
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