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Water-mediated crystallohydrate–polymer composite as a phase-change electrolyte

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With the world’s focus on wearable electronics, the scientific community has anticipated the plasticine-like processability of electrolytes and electrodes. A bioinspired composite of polymer and phase-changing salt with the similar… Click to show full abstract

With the world’s focus on wearable electronics, the scientific community has anticipated the plasticine-like processability of electrolytes and electrodes. A bioinspired composite of polymer and phase-changing salt with the similar bonding structure to that of natural bones is a suitable electrolyte candidate. Here, we report a water-mediated composite electrolyte by simple thermal mixing of crystallohydrate and polymer. The processable phase-change composites have significantly high mechanical strength and high ionic mobility. The wide operating voltage range and high faradic capacity of the composite both contribute to the maximum energy density. The convenient assembly and high thermal-shock resistance of our device are due to the mechanical interlocking and endothermic phase-change effect. As of now, no other non-liquid electrolytes, including those made from ceramics, polymers, or hydrogels, possess all of these features. Our work provides a universal strategy to fabricate various thermally manageable devices via phase-change electrolytes. Here the authors report composite electrolytes combining polymer chains and hydrated salts with a similar bonding structure to that of natural bones. The design breaks the trade-off between strength and ionic mobility of solid electrolytes and allows for good electrochemical performance in supercapacitors.

Keywords: water mediated; phase; crystallohydrate polymer; phase change

Journal Title: Nature Communications
Year Published: 2020

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