Litcius/Paper detail

Construction of 3D Conductive Network in Liquid Gallium with Enhanced Thermal and Electrical Performance

Wenkui Xing, Chen Shen, Han Wang, Wendong Liu, Jiashu Zheng, Feiyu Zheng, Xiaomin Li, Peng Tao, Wen Shang, Benwei Fu, Jianbo Wu, Chengyi Song, Baowen Li, Tao Deng

2021Advanced Materials Technologies37 citationsDOI

Abstract

Abstract This paper reports the generation of 3D thermal and electrical conductive graphene network in gallium‐based liquid metal (LM) via a simple one‐step ball‐milling approach. In this work, 2D graphene nanoplates and their derivatives were employed to construct 3D thermal and electrical conductive filler networks. It is demonstrated that the obtained composite exhibits the highest 3D thermal conductivity (44.6 W m −1 K −1 ) among the other gallium‐based LM composites with 2D inorganic nanofillers and distinguished electrical conductivity (8.3 S µ m −1 ) among gallium‐based LM composites at present. The enhanced thermal conductivity and wettability of gallium‐based composite lead to its beneficial usage as thermal interface materials with exquisite texture for LED chip heat dissipation. The electrochemical and magnetic experiments confirm that these LM‐based composites can also be controlled under external electrical or magnetic field, which potentially can help extend their application in external field‐driven systems. The findings of this work offer new insight in designing LM‐based composites with enhanced thermal, electrical, and magnetic properties for a wide range of applications, including thermal management systems, 3D printing, flexible conductors, soft robotic systems, and wearable energy technologies.

Topics & Concepts

Materials scienceGalliumElectrical conductorComposite materialThermal conductivityComposite numberThermalElectrical resistivity and conductivityLiquid metalWettingElectrical engineeringMetallurgyPhysicsMeteorologyEngineeringAdvanced Sensor and Energy Harvesting MaterialsThermal properties of materialsThermal Radiation and Cooling Technologies