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The primary technology of next‐generation wearable electronics pursues the development of highly deformable and stable systems. Here, nonvolatile, highly transparent, and ultrastretchable ionic conductors based on polymeric gelators [poly(methyl methacrylate‐ran‐butyl acrylate), PMMA‐r‐PBA] and ionic liquids (IL) are proposed. A crucial strategy in the molecular design of polymer gelators is copolymerization...
In article number 1907290, Hong Chul Moon and Yong Min Kim describe non‐volatile, highly transparent, and ultra‐stretchable ionic sensory platforms for wearable electronics. Highly deformable gels are immediately obtained by simply judiciously blending designed PMMA‐r‐PBA and [EMI][TFSI]. The resulting PMMA‐r‐PBA‐based gels are utilized in patch‐type strain sensors, referred to as ionoskins, indicating...
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