2024
DOI: 10.1002/anie.202400230
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In‐Situ Spontaneous Electropolymerization Enables Robust Hydrogel Electrolyte Interfaces in Aqueous Batteries

Liangyuan Chen,
Tuo Xiao,
Jin‐Lin Yang
et al.

Abstract: Hydrogels hold great promise as electrolytes for emerging aqueous batteries, for which establishing a robust electrode‐hydrogel interface is crucial for mitigating side reactions. Conventional hydrogel electrolytes fabricated by ex‐situ polymerization through either thermal stimulation or photo exposure cannot ensure complete interfacial contact with electrodes. Herein, we introduce an in‐situ electropolymerization approach for constructing hydrogel electrolytes. The hydrogel is spontaneously generated during … Show more

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Cited by 11 publications
(2 citation statements)
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“…Chen et al describe a method for preparing hydrogel electrolytes by in situ electro-polymerization. 91 The hydrogel was generated spontaneously during the initial cycling of the battery and did not require an additional initiator for polymerization. The involvement of electrodes during hydrogel synthesis produced a well-bonded and deeply permeable electrode-electrolyte interface.…”
Section: Hydrogels For Simultaneous Stabilizing Zibs Anodes and Cathodesmentioning
confidence: 99%
“…Chen et al describe a method for preparing hydrogel electrolytes by in situ electro-polymerization. 91 The hydrogel was generated spontaneously during the initial cycling of the battery and did not require an additional initiator for polymerization. The involvement of electrodes during hydrogel synthesis produced a well-bonded and deeply permeable electrode-electrolyte interface.…”
Section: Hydrogels For Simultaneous Stabilizing Zibs Anodes and Cathodesmentioning
confidence: 99%
“…Concentrated electrolytes can effectively regulate the solvation structure of Zn 2+ and reconfigure the hydrogen bonds of the electrolyte. It is generally believed that as the concentration of Zn 2+ increases, the number of water molecules coordinated with Zn 2+ decreases, which reduces the chemical reactivity of water, alleviates the HER, suppresses dendrite growth, and improves the electrochemical performance. …”
mentioning
confidence: 99%