Gao Danhong, Zhuang Yuyan, Gao Shasha, Huang Sheng, He Xinjian
Jiangsu Engineering Research Center for Dust Control and Occupational Protection, China University of Mining and Technology, Xuzhou 221116, Jiangsu, China.
School of Safety Engineering, China University of Mining and Technology, Xuzhou 221116, Jiangsu, China.
ACS Appl Mater Interfaces. 2024 Feb 7;16(5):6228-6238. doi: 10.1021/acsami.3c15657. Epub 2024 Jan 29.
Monitoring electrolyte components is an effective means of determining the safety status of lithium-ion batteries. In this study, indium acetate was taken as a ligand to functionalize perovskite CsPbBr nanocrystals, and then the room-temperature electrolyte sensor based on CsPbBr nanocrystals with ligand indium acetate was prepared. The sensor offers high response, long-term stability (21 days), and low detection limits for ethyl methyl carbonate (10 ppm), diethyl carbonate (10 ppm), and ethyl butyrate (1 ppm) gases at room temperature and boasts a fast response/recovery time (1500 ppm, 58.27/103.82 s, 33.58/40.62 s, and 45.05/103.08 s, respectively). Density functional theory results show that the gas sensitivity comes from the adsorption of an electrolyte, which changes the density-of-state distribution so that the electrical response curve changes. And using computational fluid dynamics simulation, it was found that the time required for gas detection by the built-in sensor (3.1 s) was 8.7 times shorter than that of the implantable sensor. This work provides inspiration and rationale for embedding and integrating room-temperature sensors into lithium-ion batteries to monitor safety and health conditions.
监测电解质成分是确定锂离子电池安全状态的有效手段。在本研究中,以醋酸铟作为配体对钙钛矿CsPbBr纳米晶体进行功能化,然后制备了基于带有醋酸铟配体的CsPbBr纳米晶体的室温电解质传感器。该传感器具有高响应性、长期稳定性(21天),在室温下对碳酸甲乙酯(10 ppm)、碳酸二乙酯(10 ppm)和丁酸乙酯(1 ppm)气体具有低检测限,并且响应/恢复时间快(分别为1500 ppm时58.27/103.82 s、33.58/40.62 s和45.05/103.08 s)。密度泛函理论结果表明,气敏性源于电解质的吸附,这改变了态密度分布,从而使电响应曲线发生变化。并且通过计算流体动力学模拟发现,内置传感器检测气体所需的时间(3.1 s)比植入式传感器短8.7倍。这项工作为将室温传感器嵌入和集成到锂离子电池中以监测安全和健康状况提供了灵感和理论依据。
