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The realization of a stretchable ionic gel conductor that is transparent, water processable, self‐healable, and thermally stable, through the attachment of ionic side chains onto a polymer backbone, is described in article number 1906679 by Taiho Park, Pooi See Lee, and co‐workers. A thermally stable actuator, stable up to 100 °C, and a deformable self‐healable thermal sensor are achieved. Furthermore,...
For emerging biocompatible, wearable, and stretchable epidermal electronic devices, it is essential to realize novel stretchable conductors with the attributes of transparency, low‐cost and nontoxic components, green‐solvent processbility, self‐healing, and thermal stabililty. Although conducting materials–rubber composites, ionic hydrogels, organogels have been developed, no stretchable material...
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