Litcius/Paper detail

Potentiometric Measurement to Probe Solvation Energy and Its Correlation to Lithium Battery Cyclability

Sang Cheol Kim, Xian Kong, Rafael A. Vilá, William Huang, Yuelang Chen, David Boyle, Zhiao Yu, Hansen Wang, Zhenan Bao, Jian Qin, Yi Cui

2021Journal of the American Chemical Society213 citationsDOIOpen Access PDF

Abstract

The electrolyte plays a critical role in lithium-ion batteries, as it impacts almost every facet of a battery’s performance. However, our understanding of the electrolyte, especially solvation of Li+, lags behind its significance. In this work, we introduce a potentiometric technique to probe the relative solvation energy of Li+ in battery electrolytes. By measuring open circuit potential in a cell with symmetric electrodes and asymmetric electrolytes, we quantitatively characterize the effects of concentration, anions, and solvents on solvation energy across varied electrolytes. Using the technique, we establish a correlation between cell potential (Ecell) and cyclability of high-performance electrolytes for lithium metal anodes, where we find that solvents with more negative cell potentials and positive solvation energies—those weakly binding to Li+—lead to improved cycling stability. Cryogenic electron microscopy reveals that weaker solvation leads to an anion-derived solid-electrolyte interphase that stabilizes cycling. Using the potentiometric measurement for characterizing electrolytes, we establish a correlation that can guide the engineering of effective electrolytes for the lithium metal anode.

Topics & Concepts

SolvationElectrolyteChemistryPotentiometric titrationLithium (medication)Inorganic chemistryAnodeBattery (electricity)Concentration cellElectrodeIonChemical physicsPhysical chemistryThermodynamicsOrganic chemistryEndocrinologyPhysicsMedicinePower (physics)Advancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research