Litcius/Paper detail

Base-Driven Ring-Opening Reactions of Vinylene Carbonate

Neeha Gogoi, Robin Lundström, Guiomar Hernández, Erik J. Berg

2024Journal of The Electrochemical Society15 citationsDOIOpen Access PDF

Abstract

Vinylene carbonate (VC) is the most commonly applied performance-enhancing electrolyte additives in Li-ion batteries to date. Despite numerous studies, there is a lack of consensus regarding the various reaction pathways of VC and their implications. VC has primarily been observed to either polymerize forming poly(vinylene carbonate) (poly(VC)) or decompose releasing major amounts of CO 2 , two seemingly contradictory processes. Herein, we present evidence of additional reaction pathways of VC highlighting its role as a H 2 O scavenging agent. In contrast to the typical electrolyte solvent ethylene carbonate, VC reacts much more rapidly with water impurities, especially when in contact with hydroxides, forming products less likely to influence cell performance. Efficient removal of water and hydroxides is essential to preserve the stability of Li-ion electrolyte solvent and salt, hence guaranteeing a long lifetime of the battery. Model studies pinpointing reaction pathways of electrolytes and additives, as presented herein, are critical not only to improve modern Li-ion cells but also to establish design principles for future battery chemistries.

Topics & Concepts

Base (topology)CarbonateRing (chemistry)ChemistryMaterials scienceOrganic chemistryMathematicsMathematical analysisCarbon dioxide utilization in catalysisOrganometallic Complex Synthesis and CatalysisChemistry and Chemical Engineering