Bor Nitrür ile kaplı 18650 Tip Li iyon Pillerinin Isıl ve Elektrokimyasal Özelliklerinin İyileştirilmesi

Journal of Boron Pub Date : 2023-04-30 DOI:10.30728/boron.1249060

Semih Engün, Burak Tarhan, Benan Elmusa, Servet Turan, Nuran Ay, Hikmet Karakoç

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Abstract

Lithium-ion batteries have a significant safety concern since they are prone to thermal runaway as the battery technology advances to high energy density and fast charge requirements. To address this issue, new material solutions are emerging that provide better heat dissipation. Boron nitride is a promising candidate as a heat conductor material in thermal management systems because of its high thermal conductivity. Therefore, this material allows effective heat dissipation and reduces the risk of thermal runaway issues. To this end, hexagonal boron nitride (hBN) was coated onto the outer cases of 18650-type batteries to dissipate the heat produced inside the battery. A cyclic charge-discharge test was performed on the hBN-coated battery sample at 10C to compare the results with a reference sample with only a polymer insulator. The findings revealed that the hBN coating on the insulator-free battery case offered efficient heat dissipation, improved capacity retention, and less change in internal resistance. Thus, the hBN coating has the potential as a solution for the efficient thermal management of Li-ion battery cases.

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改善氮化硼涂层 18650 型锂离子电池的热性能和电化学性能

随着电池技术向高能量密度和快速充电的要求发展，锂离子电池容易发生热失控，因此存在重大的安全问题。为了解决这个问题，新的材料解决方案正在出现，提供更好的散热。氮化硼具有很高的导热性，是热管理系统中很有前途的导热材料。因此，这种材料允许有效的散热，并减少热失控问题的风险。为此，在18650型电池的外壳上涂上六方氮化硼(hBN)，以散发电池内部产生的热量。对hbn涂层电池样品在10C下进行循环充放电测试，并与仅使用聚合物绝缘体的参考样品进行比较。研究结果表明，在无绝缘体的电池壳上涂覆hBN涂层可以提供有效的散热，改善容量保持，并且内阻变化较小。因此，hBN涂层具有作为锂离子电池外壳有效热管理解决方案的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Boron

CiteScore

0.70

自引率

0.00%

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