Mechanically Strong Functionalized-BNNS/PVA Composite Hydrogels with Excellent Thermal Conductivities.

IF 4.2 3区化学 Q2 POLYMER SCIENCE

Macromolecular Rapid Communications Pub Date : 2025-07-21 DOI:10.1002/marc.202500416

Junliang Zhang, Chenyang Tang, Qingqing Kong, Kunpeng Ruan, Yongqiang Guo, Jiangtao Wang, Junwei Gu

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引用次数: 0

Abstract

Polyvinyl alcohol (PVA) hydrogels exhibit superior viscoelasticity, flexibility, and biocompatibility and have been widely utilized in wearable devices, flexible electronics, and electronic packaging. However, their low thermal conduction ability and poor mechanical performance limit their further applications and development for the high integration and multifunctionality of flexible electronics and wearables. Herein, BNNS-OH/PVA composite hydrogels containing oriented structure were fabricated via directional freezing, salting-out, and stretching, applying PVA hydrogel as matrix and hydroxyl boron nitride nanosheets (BNNS-OH) as thermal-conductive fillers. The oriented BNNS-OH/PVA composite hydrogel containing 9 wt.% of BNNS-OH exhibited appreciably improved in-plane thermal conductivity (λ) of 3.13 W/(m·K) when stretched by 3.5 times, enhanced by 210% compared to 1.01 W/(m·K) for the unstretched hydrogel and 502% compared to 0.52 W/(m·K) for pure PVA hydrogel made applying freeze-thaw (FT) method. Additionally, the oriented BNNS-OH/PVA composite hydrogels exhibited superior elastic modulus, tensile strength, and toughness of 20 MPa, 18.8 MPa, and 9.9 MJ/m³, respectively, to 0.07 MPa, 0.4 MPa, and 0.32 MJ/m³ of pure FT PVA hydrogel.

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具有优异导热性能的机械强功能化- bnns /PVA复合水凝胶。

聚乙烯醇（PVA）水凝胶具有优异的粘弹性、柔韧性和生物相容性，已广泛应用于可穿戴设备、柔性电子产品和电子封装。然而，它们的低导热能力和较差的机械性能限制了它们在柔性电子和可穿戴设备的高集成度和多功能性方面的进一步应用和发展。本文以PVA水凝胶为基体，羟基氮化硼纳米片（BNNS-OH）为导热填料，通过定向冷冻、盐析和拉伸制备了具有定向结构的BNNS-OH/PVA复合水凝胶。当拉伸3.5倍时，含有9 wt.% BNNS-OH的定向BNNS-OH/PVA复合水凝胶的面内导热系数（λ）明显提高，为3.13 W/(m·K)，比未拉伸水凝胶的1.01 W/（m·K）提高了210%，比采用冻融（FT）法制备的纯PVA水凝胶的0.52 W/（m·K）提高了502%。此外，定向BNNS-OH/PVA复合水凝胶的弹性模量、抗拉强度和韧性分别为20 MPa、18.8 MPa和9.9 MJ/m3，优于纯FT PVA水凝胶的0.07 MPa、0.4 MPa和0.32 MJ/m3。

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

Macromolecular Rapid Communications 工程技术-高分子科学

CiteScore

7.70

自引率

6.50%

发文量

477

审稿时长

1.4 months

期刊介绍： Macromolecular Rapid Communications publishes original research in polymer science, ranging from chemistry and physics of polymers to polymers in materials science and life sciences.