4.8 Article

Low Concentration DMF/H2O Hybrid Electrolyte: A New Opportunity for Anode Materials in Aqueous Potassium-Ion Batteries

Journal

ACS APPLIED MATERIALS & INTERFACES
Volume 13, Issue 32, Pages 38248-38255

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsami.1c08151

Keywords

DMF; SEI; low concentration; hybrid electrolyte; aqueous potassium-ion batteries; wide electrochemical window

Funding

  1. Shenzhen Science and T e c h n o l o g y I n n o v a t i o n C o m m i s s i o n [JCYJ20180504165506495]

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Superconcentrated water-in-salt electrolytes have widened the electrochemical stable window, but come with new challenges such as high cost, high viscosity, and low conductivity. The 2 m low concentration electrolyte using a DMF/H2O hybrid solvent provides a wider stable window, nonflammability, high conductivity, and low viscosity. The addition of DMF promotes stable solid electrolyte interphase formation, enhancing the electrochemical reversibility and cyclability of electrode materials in aqueous electrolytes.
Superconcentrated water-in-salt electrolytes have greatly widened the electrochemical stable window (ESW) of aqueous electrolytes, but they also generate new problems, including high costs, high viscosity, and low conductivity. Here we report a 2 m low concentration electrolyte using an N,N-dimethylformamide/water (DMF/H2O) hybrid solvent, which provides a wider ESW (2.89 V) than an aqueous electrolyte (2.66 V) and presents nonflammability, high conductivity, and low viscosity characteristics. In 2 m DMF/H2O hybrid electrolyte, the LUMO energy of the DMF solvent (-0.00931 a.u.) is lower than that of H2O (-0.00735 a.u.), which could effectively promote the degradation of FSI- and lead to stable solid electrolyte interphase formation. As a result, the electrochemical reversibility and cyclability of the KTi2(PO4)(3)@C (KTP@C) anode in the aqueous electrolyte have been significantly enhanced with the help of DMF addition. Moreover, the K2Zn3(Fe(CN)(6))(2) (KZnHCF)//KTP@C full potassium-ion battery exhibits highly efficient stability and rate capability with a long cycle performance over 10 000 cycles and delivers a specific discharge capacity of 33 mAh g(-1) at a high current density of 20 A g(-1) . Low concentrations of DMF/H2O hybrid electrolytes can inhibit the hydrogen evolution reaction of aqueous electrolytes, providing more opportunities for the practical application of electrode materials. Not limited to DMF solvent, mixing organic and aqueous solvents will provide more available options and perspectives for improving the energy density and long cycle performance of the aqueous metal-ion battery.

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