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Innovation in the ionotronics field has significantly accelerated the development of ultraflexible devices and machines. However, it is still challenging to develop efficient ionotronic‐based fibers with necessary stretchability, resilience, and conductivity due to inherent conflict in producing spinning dopes with both high polymer and ion concentrations and low viscosities. Inspired by the liquid...
Ionotronic artificial motion and tactile receptor (i‐AMTR) is essential to realize an interactive human‐machine interface. However, an i‐AMTR that effectively mimics the composition, structure, mechanics, and multi‐functionality of human skin, called humanoid i‐AMTR, is yet to be developed. To bridge this technological gap, this study proposes a strategy that combines molecular structure design and...
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