Printed Carbon Black Thermocouple as an In Situ Thermal Sensor for Lithium-Ion Cell

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY Batteries Pub Date : 2024-02-27 DOI:10.3390/batteries10030078
Nikko Cano Talplacido, Denis Cumming
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Abstract

Thermal monitoring of lithium-ion batteries ensures their safe and optimal operation. To collect the most accurate temperature data of LIBs, previous studies used thermocouples in the cell and proved them to be technically viable. However, the cost and scale-up limitations of this method restricted its use in many applications, hindering its mass adoption. This work developed a low-cost and scalable screen-printed carbon black thermocouple to study its applicability for the thermal monitoring of LIB. Given the appropriate manufacturing parameters, it was found that thermal sensors may be printed on the electrodes, installed on a pouch cell, and once calibrated, operate with excellent sensitivity. However, to reliably use a printed carbon black thermocouple in operando of a pouch cell, its chemical resistance against electrolytes was found to require further development.
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印刷碳黑热电偶作为锂离子电池的现场热传感器
对锂离子电池进行热监测可确保其安全和最佳运行。为了收集最准确的锂离子电池温度数据,以前的研究在电池中使用了热电偶,并证明其在技术上是可行的。然而,这种方法的成本和规模限制了它在许多应用中的使用,阻碍了它的大规模应用。本研究开发了一种低成本、可扩展的丝网印刷碳黑热电偶,以研究其在 LIB 热监测中的适用性。研究发现,在适当的制造参数下,热传感器可以印刷在电极上,安装在袋式电池上,一旦校准,就能以出色的灵敏度运行。不过,要在袋式电池的操作过程中可靠地使用印刷碳黑热电偶,还需要进一步开发其对电解质的耐化学性。
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来源期刊
Batteries
Batteries Energy-Energy Engineering and Power Technology
CiteScore
4.00
自引率
15.00%
发文量
217
审稿时长
7 weeks
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