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Predicting Charge Transfer Stability between Sulfide Solid Electrolytes and Li Metal Anodes

Haesun Park, Seungho Yu, Donald J. Siegel

2020ACS Energy Letters49 citationsDOI

Abstract

Reduction or oxidation of a solid electrolyte (SE) by the electrodes of a battery can inject electrons or holes into the SE, inducing unwanted electrical conductivity and/or precipitating harmful interfacial reactions. Here, the likelihood for charge injection from a Li metal anode to 10 sulfide-based SEs is determined by computing the positions of the SE’s band edges with respect to the electrochemical potential of the electrode. Although these SEs exhibit large band gaps (>4 eV), nearly all are susceptible to electron injection. One notable exception is the B-containing sulfide Li3BS3, which exhibits the greatest resistance to reduction. The trends in charge transfer stability are compared to those for chemical stability with a Li anode and are found to be similar. The combined characterization of chemical and charge transfer phenomena allows for a comprehensive assessment of interfacial stability. The utility of this approach is demonstrated by interpreting recent experiments on the Li/Li2H2PO4/LGPS interface system.

Topics & Concepts

SulfideElectrolyteMetalAnodeMaterials scienceFast ion conductorCharge (physics)Lithium metalInorganic chemistryChemical engineeringChemistryMetallurgyElectrodePhysical chemistryPhysicsQuantum mechanicsEngineeringAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsAdvanced Battery Technologies Research
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