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Nonaggregated Anions Enable the Undercooled Aqueous Electrolyte for Low-Temperature Applications

Qiu Zhang, Yong Lü, Xiaomeng Liu, Weiwei Xie, Jun Chen

2024Journal of the American Chemical Society32 citationsDOI

Abstract

Aqueous batteries, with the advantages of high safety and low cost, are highly promising for large-scale energy storage. However, freezing of the aqueous electrolyte limits the low-temperature operation. Here, we propose and achieve a highly dispersed solvation structure in the electrolyte by coupling nonaggregated Cl – anions, which reduces the water cluster size and prevents the solidification of the aqueous electrolyte until −136.3 °C. The low-temperature LiCl electrolyte exhibits a high ionic conductivity (1.0 mS cm –1 ) at −80 °C and enables a stable low-temperature Ag/AgCl reference electrode at −50 °C. Moreover, the polyaniline-based battery can work at an extremely low temperature of −100 °C and shows superior cycling performance of 4000 cycles at −40 °C with 95.7% capacity retention. This work elucidates the correlation between the anion effect and the thermodynamic transition of the electrolyte, offering a novel approach for designing low-temperature electrolytes.

Topics & Concepts

ElectrolyteChemistrySolvationAqueous solutionBattery (electricity)Ionic conductivityElectrochemistryIonic bondingConductivityInorganic chemistryFreezing pointElectrodeIonChemical engineeringThermodynamicsPhysical chemistryOrganic chemistryEngineeringPhysicsPower (physics)Advanced battery technologies researchAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication
Nonaggregated Anions Enable the Undercooled Aqueous Electrolyte for Low-Temperature Applications | Litcius