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High-performance thermal interface materials enabled by vertical alignment of lightweight and soft graphene foams

Huaqiang Fu, Renqiang Fang, Chao Tian, Wei Qian, Shiya Cao, Ziran Zhang, Xiaoxi Xu, Chuang Yao, Zhe Wang, Daping He

2024Nano Research17 citationsDOI

Abstract

High-performance thermal interface materials (TIMs) are highly sought after for modern electronics. Two-dimensional (2D) materials as vertical aligned fillers can optimize the out-plane thermal conductivity ( k ⊥ ), but their excessively high content or intrinsic rigidness deteriorate TIMs softness, leading to worsening for thermal contact resistance ( R contact ). In this study, 2D graphene materials are fabricated into lightweight and soft graphene foams (GFs) with high-orientation, acting as vertical filler frameworks to optimize the k ⊥ and R contact for vertical GF (VGF) TIMs. The VGF-TIM has a high k ⊥ of 47.9 W·m −1 ·K −1 at a low graphene content of 15.5 wt.%. Due to the softness and low filler contents of GFs, the VGF-TIM exhibits a low compressive module (4.2 MPa), demonstrating excellent compressibility. The resulting TIM exhibit a low contact resistance of 24.4 K·mm 2 ·W −1 , demonstrating 185.1% higher cooling efficiency in practical heat dissipating scenario compared to commercial advanced TIMs. This work provides guidelines for the design of advanced TIMs and their applications in thermal management.

Topics & Concepts

GrapheneMaterials scienceSoft materialsInterface (matter)NanotechnologyThermalGraphene foamThermal greaseComposite materialGraphene oxide paperThermal conductivityPhysicsCapillary actionCapillary numberMeteorologyThermal properties of materialsGraphene research and applicationsHeat Transfer and Optimization
High-performance thermal interface materials enabled by vertical alignment of lightweight and soft graphene foams | Litcius