Publication | Closed Access
High ionic conductivity and toughness hydrogel electrolyte for high-performance flexible solid-state zinc-ion hybrid supercapacitors enabled by cellulose-bentonite coordination interactions
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Citations
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References
2023
Year
EngineeringPolyelectrolyte GelMaterial InnovationChemical EngineeringNanocelluloseMaterials ScienceElectroactive MaterialToughness Hydrogel ElectrolyteCellulose Hydrogel ElectrolytesEnergy StorageSupercapacitorFunctional MaterialsCellulose-bentonite Coordination InteractionsElectrochemical Double Layer CapacitorElectrochemistryBiopolymer GelSupercapacitorsFlexible ElectronicsHigh Ionic ConductivityLamellar StructureCoordination Interaction
The lamellar structure of BT and coordination interaction with cellulose make cellulose hydrogel electrolytes have both high ionic conductivity and mechanical strength, and assembled ZHSCs can be applied in the field of wearable electronic devices.
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