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Atomic-scale study clarifying the role of space-charge layers in a Li-ion-conducting solid electrolyte

Zhenqi Gu, Jiale Ma, Feng Zhu, Ting Liu, Kai Wang, Ce‐Wen Nan, Zhenyu Li, Cheng Ma

2023Nature Communications81 citationsDOIOpen Access PDF

Abstract

Abstract Space-charge layers are frequently believed responsible for the large resistance of different interfaces in all-solid-state Li batteries. However, such propositions are based on the presumed existence of a Li-deficient space-charge layer with insufficient charge carriers, instead of a comprehensive investigation on the atomic configuration and its ion transport behavior. Consequently, the real influence of space-charge layers remains elusive. Here, we clarify the role of space-charge layers in Li 0.33 La 0.56 TiO 3 , a prototype solid electrolyte with large grain-boundary resistance, through a combined experimental and computational study at the atomic scale. In contrast to previous speculations, we do not observe the Li-deficient space-charge layers commonly believed to result in large resistance. Instead, the actual space-charge layers are Li-excess; accommodating the additional Li + at the 3c interstitials, such space-charge layers allow for rather efficient ion transport. With the space-charge layers excluded from the potential bottlenecks, we identify the Li-depleted grain-boundary cores as the major cause for the large grain-boundary resistance in Li 0.33 La 0.56 TiO 3 .

Topics & Concepts

Space chargeIonAtomic unitsCharge (physics)ElectrolyteGrain boundaryChemical physicsMaterials scienceDepletion regionSpace (punctuation)Fast ion conductorNanotechnologyAtomic physicsChemistryElectronPhysicsLayer (electronics)MicrostructureComputer sciencePhysical chemistryComposite materialQuantum mechanicsElectrodeOperating systemAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
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