Ab initio molecular dynamics simulations of the initial stages of solid–electrolyte interphase formation on lithium ion battery graphitic anodes - Concepedia

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Ab initio molecular dynamics simulations of the initial stages of solid–electrolyte interphase formation on lithium ion battery graphitic anodes

DOI Full Paper Access

281

Citations

33

References

2010

Year

Kevin Leung, Joanne Budzien

Physical Chemistry Chemical Physics

EngineeringSolid–electrolyte Interphase FormationElectrode-electrolyte InterfaceChemistryTheoretical ElectrochemistryEthylene CarbonateChemical EngineeringSolvent-graphitic Anode InterfaceInterfacial ChemistryElectrochemical InterfaceMaterials ScienceBattery Electrode MaterialsLithium-ion BatteryLithium-ion BatteriesEnergy StoragePhysical ChemistryInitial StagesSolid-state BatteryElectrochemical ProcessElectrochemistryLi-ion Battery MaterialsNatural SciencesMetal AnodeApplied PhysicsGrapheneElectrochemical Energy StorageCarbon Edge TerminationsBatteriesAnode Materials

Abstract

The decomposition of ethylene carbonate (EC) during the initial growth of solid-electrolyte interphase (SEI) films at the solvent-graphitic anode interface is critical to lithium ion battery operations. Ab initio molecular dynamics simulations of explicit liquid EC/graphite interfaces are conducted to study these electrochemical reactions. We show that carbon edge terminations are crucial at this stage, and that achievable experimental conditions can lead to surprisingly fast EC breakdown mechanisms, yielding decomposition products seen in experiments but not previously predicted.

References

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