Litcius/Paper detail

SiO-induced thermal instability and interplay between graphite and SiO in graphite/SiO composite anode

Ban Seok Lee, Sang-Hwan Oh, Yoon Jeong Choi, Min-Jeong Yi, Sohee Kim, Shin‐Yeong Kim, Yung‐Eun Sung, Sun Shin, Yongju Lee, Seung‐Ho Yu

2023Nature Communications98 citationsDOIOpen Access PDF

Abstract

Silicon monoxide (SiO), which exhibits better cyclability compared to silicon while delivering higher capacity than that of graphite, is an adequate material for the development of lithium-ion batteries (LIBs) having higher energy densities. However, incorporating silicon-based materials including SiO into stable graphite anode inevitably degrades not only cycle life but also calendar life of LIBs, while little is known about their aging mechanisms. Here, SiO-induced thermal instability of the graphite/SiO composite anode is investigated. We reveal that under thermal exposure, SiO accelerates the loss of lithium inventory and concomitantly facilitates the lithium de-intercalation from graphite. This self-discharge phenomenon, which is weakly observed in the graphite anode without SiO, is the result of preferential parasitic reaction on the SiO interface and spontaneous electron and lithium-ion migration to equilibrate the electron energy imbalance between graphite and SiO. Understanding this underlying electron-level interplay between graphite and SiO in the composite anode will contribute toward improving shelf life of SiO-containing LIBs in actual operating conditions.

Topics & Concepts

GraphiteAnodeMaterials scienceSiliconLithium (medication)Composite numberChemical engineeringSilicon monoxideIntercalation (chemistry)Composite materialElectrodeInorganic chemistryChemistryMetallurgyPhysical chemistryMedicineEngineeringEndocrinologyAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies