Preparation of functionalized boron nitride nanosheets by one-step method for improving the thermal conductivity of polymers

IF 4.7 3区材料科学 Q2 CHEMISTRY, PHYSICAL Colloid and Interface Science Communications Pub Date : 2024-02-26 DOI:10.1016/j.colcom.2024.100776

Shufen Wang , Jiapeng Tang , Hailing Xiang , Xingke Zhao , Kunhong Hu , Chengliang Han , SanE Zhu , Minghua Li , Yunsheng Ding

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Abstract

Boron nitride nanosheets (BNNSs) with high thermal conductivity (TC) have promising applications in the thermal conduction. However, the preparation of BNNSs is cumbersome and BNNSs are prone to aggregation in the polymer matrix, which reduces the efficient enhancement for the TC of BNNSs/polymer composite. Herein, we propose a one-step method for the simultaneous exfoliation and functionalization of BNNSs with polymer latex as an agent. The obtained WPU-BNNSs displayed as few-layers with sizes of 100-500 nm and were mixed with WPU matrix as filler. The results demonstrated that the BNNSs/WPU composites have higher TC than the h-BN/WPU with the same filler content. When the filler content reached 50%, its TC was 251.4% higher than that of pure WPU. The excellent TC arose from the outstanding dispersion uniformity of WPU-BNNSs in the matrix. This study provides an economical and efficient method of fabricating BNNSs-based thermal conductive composite materials.

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用一步法制备功能化氮化硼纳米片，改善聚合物的导热性能

具有高热导率（TC）的氮化硼纳米片（BNNSs）在热传导领域具有广阔的应用前景。然而，氮化硼纳米片的制备过程十分繁琐，而且氮化硼纳米片容易在聚合物基体中聚集，从而降低了氮化硼纳米片/聚合物复合材料导热系数的有效提升。在此，我们提出了一种以聚合物胶乳为媒介，一步法同时剥离和官能化 BNNSs 的方法。将得到的 WPU-BNNSs 与作为填料的 WPU 基体混合，得到的 WPU-BNNSs 显示为尺寸为 100-500 nm 的少层。结果表明，在填料含量相同的情况下，BNNSs/WPU 复合材料的 TC 值高于 h-BN/WPU。当填料含量达到 50%时，其 TC 比纯 WPU 高 251.4%。WPU-BNNSs在基体中出色的分散均匀性造就了优异的热导率。这项研究为制造基于 BNNSs 的导热复合材料提供了一种经济、高效的方法。

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来源期刊

Colloid and Interface Science Communications Materials Science-Materials Chemistry

CiteScore

9.40

自引率

6.70%

发文量

125

审稿时长

43 days

期刊介绍： Colloid and Interface Science Communications provides a forum for the highest visibility and rapid publication of short initial reports on new fundamental concepts, research findings, and topical applications at the forefront of the increasingly interdisciplinary area of colloid and interface science.