Litcius/Paper detail

Full‐Dimensional Analysis of Gaseous Products Within Li‐Ion Batteries by On‐Line GC‐BID/MS

Haitang Zhang, Xiaohong Wu, Zhengang Li, Yeguo Zou, Junhao Wang, Xiaoyu Yu, Jianken Chen, Jiyuan Xue, Baodan Zhang, Jing‐Hua Tian, Yuhao Hong, Yu Qiao, Shi‐Gang Sun

2024Advanced Energy Materials28 citationsDOIOpen Access PDF

Abstract

Abstract The gas release within Li‐ion batteries, particularly during cycling and storage, can result in rapid performance degradation and potential safety hazards. However, this area has not garnered sufficient attention until now, primarily because the gassing information collected by typical OEMS/DEMS is quite limited and even inaccurate. Herein, for the first time, a state‐of‐the‐art on‐line GC‐BID/MS to full‐dimensionally analyze the gassing behavior within both lab‐scale coin‐type cell (in situ mode) and industry‐scale pouch‐type cell (operando mode) is originally designed/constructed. Not limited to common permanent gases (e.g. H 2 , CO, etc.) detected by online GC‐BID, but also complicated/various (semi‐)volatile products are identified/quantified by online GC‐MS. Based on the real‐time evolution information of water, alcohols, aldehydes, ethers, esters, and hydrocarbons, the decomposition mechanisms of electrolyte on both graphite anode and/or LCO cathode sides is further supplemented/perfected. Moreover, at the level of the device, series derivative/crosstalk reactions induced by trapped/accumulated gaseous species are unveiled in practical pouch‐cell.

Topics & Concepts

Line (geometry)ChemistryIonChromatographyOrganic chemistryMathematicsGeometryAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchExtraction and Separation Processes
Full‐Dimensional Analysis of Gaseous Products Within Li‐Ion Batteries by On‐Line GC‐BID/MS | Litcius