材料科学
热导率
低密度聚乙烯
复合材料
多孔性
氮化硼
热的
热稳定性
聚合物
相(物质)
聚乙烯
潜热
体积分数
硼
蜡
填料(材料)
相变材料
体积热力学
多孔介质
石蜡
热传导
化学工程
石墨
还原(数学)
鳞片
热分析
热阻
质量分数
溶剂
作者
Guohua Wu (1815322),Jieqing Shen (6159485),Shirao Huang (21226882),Zhengmao Zhang (4005125),Yongjin Li (111774),Lijun Ye (1468528)
出处
期刊:
[Figshare (United Kingdom)]
日期:2025-05-01
标识
DOI:10.1021/acsapm.5c00280.s001
摘要
An efficient 3D skeleton is essential to phase-change materials (PCMs) to address poor shape stability and low thermal conductivity. While double-percolated structures are effective in forming 3D filler networks, their achievement with 2D fillers remains challenging. We herein report the preparation of a hexagonal boron nitride (h-BN) skeleton for paraffin wax (PW, as the model PCM) by constructing double-percolated structures within poly(l-lactic acid) (PLLA)/low-density polyethylene (LDPE) blends, where h-BN preferentially localizes in the LDPE phase. 3D LDPE/h-BN skeletons with high porosity are achieved by removing the PLLA phase after solvent extraction. Notably, only 7.5 wt % of LDPE (the initial weight fraction in polymer composites) is sufficient for building a robust skeleton with 50 wt % h-BN, providing a large volume for accommodating PW after removing PLLA. A series of PW-based shape-stable PCMs with competent thermal conductivity, phase-change latent heat, and mechanical strength are prepared by vacuum-assisted impregnation. The obtained PCMs (namely, PPB-10, PPB-30, and PPB-50) exhibit thermal conductivity as high as 0.40, 0.56, and 0.87 W/(m·K). The phase-change latent heat (melting enthalpy) of PPB-10, PPB-30, and PPB-50 are 140.2, 104.2, and 77.8 J/g, respectively. PPB-50 demonstrates optimum performance in the heat management of an LED module, achieving a maximum temperature reduction of 33 °C during operation. The results highlight the crucial role of improving the thermal transport efficiency to fully activate the phase change of PCMs for effective thermal management.
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