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Spreading liquid droplets on solid surfaces is a core topic in physical chemistry with significant technological implications. Liquid metals, which are eutectic alloys of constituent metal atoms with low melting temperatures, are practically useful, but difficult to spread on solid surfaces because of their high surface tension. This makes it difficult to use liquid metals as deformable on‐board microcircuitry...
In article number 2002178, Cheolmin Park and co‐workers develop micropatternable, superstretchable, self‐healable, and water‐swellable liquid‐metal electrodes with a low electrical resistance, utilizing the autonomous surface reconciliation of the liquid metal on chemically modified hydrogels. These electrodes are suitable for a variety of deformable microelectronic applications.
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