Revealing the Thermal Safety of Prussian Blue Cathode for Safer Nonaqueous Batteries

普鲁士蓝 热失控 阴极 材料科学 X射线光电子能谱 拉曼光谱 化学工程 电化学 纳米技术 电池(电) 电极 化学 光学 量子力学 物理 工程类 物理化学 功率(物理)
作者
Zheng Li,Mehran Dadsetan,Junxian Gao,Sensen Zhang,Lirong Cai,Ali Naseri,Martha E. Jiménez-Castañeda,T. R. Filley,Jeffrey T. Miller,Murray J. Thomson,Vilas G. Pol
出处
期刊:Advanced Energy Materials [Wiley]
卷期号:11 (42) 被引量:85
标识
DOI:10.1002/aenm.202101764
摘要

Abstract Prussian blue analogs (PBAs) are promising cathode materials for many next‐generation metal‐ion batteries due to their exceptional electrochemical performance. Their oxygen‐free structure avoids a common battery thermal runaway pathway which requires O 2 liberation. Herein, the thermal runaway mechanisms of PBAs are studied from the level of material and full cell in nonaqueous sodium‐ and potassium‐ion batteries (SIBs and KIBs). Their hidden safety issue and a novel runaway mechanism that requires no oxygen evolution are identified. The cyanide groups are released (≈51.4 wt%) as toxic cyanides above 200 °C, which also exothermically react with the electrolyte and cause the runaway. The cyanide gas generation mechanism is proposed as cathode hydrolytic disproportionation by Raman spectroscopy, X‐ray photoelectron spectroscopy, in situ environmental transmission electron microscopy, and operando synchrotron X‐ray diffraction studies. In addition, full‐cell level calorimetric studies reveal mitigated heat generation but lower initiation temperature of runaway from such SIBs and KIBs than conventional LiCoO 2 –graphite system. These results change how PBA materials are evaluated from a safety standpoint, suggesting that they cannot be regarded as safe cathodes. They also indicate the correlations between thermal safety and their crystal defects or trapped water content. The proposed thermal runaway mechanism provides insights to assist in the building of safer next‐generation batteries.
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