Archive/Choline Lactate Photocured Hydrogels for Sustainable Low-Temperature Supercapacitors
Choline Lactate Photocured Hydrogels for Sustainable Low-Temperature Supercapacitors
Joanna Fijałkowska, Julianna Czerniawska, Beata Sikora et al.
July 10, 2026
en

Abstract

The growing demand for flexible and environmentally friendly energy storage systems has increased interest in new electrolyte materials capable of operating at low temperatures. In this work, hydrogel polymer electrolytes based on aqueous choline lactate solutions were developed and evaluated for supercapacitor applications. Choline lactate was synthesized from biodegradable and low-toxicity substrates and characterized using spectroscopic and thermal analysis methods. A series of aqueous electrolytes with different salt concentrations was prepared, and their viscosity, density, and ionic conductivity were investigated to determine the optimal composition for hydrogel preparation. The obtained hydrogels were synthesized by photopolymerization and showed good flexibility, transparency, and structural stability without electrolyte leakage. Thermal analysis revealed that the presence of choline lactate effectively suppressed water crystallization, reducing the phase transition temperature of the hydrogel systems below −44 °C. Ionic conductivity increased with electrolyte content and reached 22.3 mS·cm−1 at room temperature for the hydrogel containing 90 wt% electrolyte. Mechanical measurements showed that increasing electrolyte concentration improved flexibility but reduced stiffness and compressive strength. Electrochemical tests demonstrated stable supercapacitor operation in the temperature range from 25 °C to −20 °C, although lower temperatures led to decreased capacitance and increased internal resistance. The results indicate that choline lactate-based hydrogels are promising candidates for sustainable low-temperature energy storage devices.

IPC Classification

C07B60H01

Keywords

cholinelactatephotocuredhydrogelssustainablelow-temperaturesupercapacitorsgelsgrowingdemandflexibleenvironmentallyfriendlyenergystoragesystemsincreasedinterestelectrolytematerialscapableoperatingtemperatureswork
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