Microphase-Separated Elastic and Ultrastretchable Ionogel for Reliable Ionic Skin with Multimodal Sensation.
bioinspired
ionic skin
ionogel
microphase separation
multimodal sensing
Journal
Advanced materials (Deerfield Beach, Fla.)
ISSN: 1521-4095
Titre abrégé: Adv Mater
Pays: Germany
ID NLM: 9885358
Informations de publication
Date de publication:
22 Nov 2023
22 Nov 2023
Historique:
revised:
20
11
2023
received:
21
09
2023
pubmed:
23
11
2023
medline:
23
11
2023
entrez:
22
11
2023
Statut:
aheadofprint
Résumé
Bioinspired artificial skins integrated with reliable human-machine interfaces and stretchable electronic systems have attracted considerable attention. However, the current design faces difficulties in simultaneously achieving satisfactory skin-like mechanical compliance and self-powered multimodal sensing. Here, this work reports a microphase-separated bicontinuous ionogel which possesses skin-like mechanical properties and mimics the multimodal sensing ability of biological skin by ion-driven stimuli-electricity conversion. The ionogel exhibits excellent elasticity and ionic conductivity, high toughness, and ultrastretchability, as well as a Young's modulus similar to that of human skin. Leveraging the ion-polymer interactions enabled selective ion transport, the ionogel can output pulsing or continuous electrical signals in response to diverse stimuli such as strain, touch pressure, and temperature sensitively, demonstrating a unique self-powered multimodal sensing. Furthermore, the ionogel-based I-skin can concurrently sense different stimuli and decouple the variations of the stimuli from the voltage signals with the assistance of a machine-learning model. The ease of fabrication, wide tunability, self-powered multimodal sensing, and the excellent environmental tolerance of the ionogels demonstrate a new strategy in the development of next-generation soft smart mechano-transduction devices.
Identifiants
pubmed: 37993105
doi: 10.1002/adma.202309821
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e2309821Subventions
Organisme : Research Grant Council of Hong Kong
ID : 11305219
Organisme : Research Grant Council of Hong Kong
ID : 11307220
Organisme : Collaborative Research Fund (CRF) Hong Kong
ID : C1006-20WF
Organisme : Shenzhen Basic Research Program
ID : JCYJ20210324134009024
Informations de copyright
© 2023 Wiley-VCH GmbH.
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