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Performance-limiting factors of graphite in sulfide-based all-solid-state lithium-ion batteries

Laura Höltschi, Camelia N. Borca, Thomas Huthwelker, Federica Marone, Christian M. Schlepütz, Vincent Pelé, Christian Jordy, Claire Villevieille, Mario El Kazzi, Petr Novák

2021Electrochimica Acta25 citationsDOIOpen Access PDF

Abstract

A suite of bulk and surface analytical techniques was applied to shed light on the factors limiting fast cycling of composite graphite electrodes in all-solid-state cells based on sulfide electrolytes 0.75Li2S-0.25P2S5 (LPS) and 0.3LiI-0.7(0.75Li2S-0.25P2S5). Cracks in the composite electrodes and poor percolation of the ionic conducting particles were identified by both scanning electron microscopy and X-ray tomography and the slow kinetics during lithiation (limiting practical specific charge at rates >C/10, at geometrical current densities >120 μA cm−2) was monitored by operando X-ray diffraction and supported by Raman microscopy. Operando X-ray photoelectron spectroscopy and X-ray absorption spectroscopy detected the formation of Li2S and LixP at the interface between LPS and graphite, both compounds increasing the interfacial resistance. Despite the kinetic limitations, excellent long-term cycling performance is demonstrated at C/20 rate (at current density of about 60 μA cm−2), revealing slow self-passivation processes at the sulfide/graphite interface which stabilizes after approximately 200 full cycles.

Topics & Concepts

GraphiteX-ray photoelectron spectroscopyMaterials scienceElectrolyteSulfideLithium (medication)Scanning electron microscopeRaman spectroscopyAnalytical Chemistry (journal)Limiting currentChemical engineeringElectrodeElectrochemistryChemistryComposite materialPhysical chemistryEndocrinologyOpticsChromatographyMetallurgyPhysicsMedicineEngineeringAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
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