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Ultradurable, freeze-resistant, and healable MXene-based ionic gels for multi-functional electronic skin

Yao Lu, Xinyu Qu, Siying Wang, Ye Zhao, Yanfang Ren, Wenli Zhao, Qian Wang, Chencheng Sun, Wenjun Wang, Xiaochen Dong

2021Nano Research51 citationsDOI

Abstract

Hydrogel is a potential matrix material of electronic-skins (E-skins) because of its excellent ductility, tunability, and biocompatibility. However, hydrogel-based E-Skins will inevitably lose their sensing performance in practical applications for water loss, physical damage, and ambient interferences. It remains a challenge to manufacture highly durable gel-based E-skins. Herein, an E-Skin is fabricated by introducing ionic liquids (ILs) into MXene-composited binary polymer network. The obtained ionic gel shows excellent mechanical properties, strong adhesion, and superior tolerance to harsh environments. The E-skin exhibits high sensitivity to both strain and pressure in a wide range of deformations, which enables a monitoring function for various human motions and physiological activities. Importantly, the E-skin shows consistent electrical response after being stored in the open air for 30 days and can be quickly healed by irradiation with 808 nm near-infrared light, originating from the photo-thermal effect induced self-healing acceleration. It is noteworthy that the E-skin also reveals a highly sensitive perception of temperature and near-infrared light, displaying the promising potential applications in the multifunctional flexible sensor.

Topics & Concepts

Materials scienceBiocompatibilityIonic bondingPolymerSmart materialNanotechnologyElectronic skinComposite materialOptoelectronicsChemistryIonMetallurgyOrganic chemistryAdvanced Sensor and Energy Harvesting MaterialsDielectric materials and actuatorsPolydiacetylene-based materials and applications
Ultradurable, freeze-resistant, and healable MXene-based ionic gels for multi-functional electronic skin | Litcius