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Electric‐Field‐Assisted Growth of Vertical Graphene Arrays and the Application in Thermal Interface Materials
Author(s) -
Xu Shichen,
Wang Shanshan,
Chen Zhe,
Sun Yangyong,
Gao Zhenfei,
Zhang Hang,
Zhang Jin
Publication year - 2020
Publication title -
advanced functional materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.069
H-Index - 322
eISSN - 1616-3028
pISSN - 1616-301X
DOI - 10.1002/adfm.202003302
Subject(s) - materials science , graphene , thermal conductivity , electric field , chemical vapor deposition , fabrication , miniaturization , nanotechnology , optoelectronics , thermal , carbon nanotube , composite material , thermodynamics , physics , quantum mechanics , medicine , alternative medicine , pathology
Abstract Owing to the development of electronic devices moving toward high power density, miniaturization, and multifunction, research on thermal interface materials (TIMs) is become increasingly significant. Graphene is regarded as the most promising thermal management material owing to its ultrahigh in‐plane thermal conductivity. However, the fabrication of high‐quality vertical graphene (VG) arrays and their utilization in TIMs still remains a big challenge. In this study, a rational approach is developed for growing VG arrays using an alcohol‐based electric‐field‐assisted plasma enhanced chemical vapor deposition. Alcohol‐based carbon sources are used to produce hydroxyl radicals to increase the growth rate and reduce the formation of defects. A vertical electric field is used to align the graphene sheets. Using this method, high‐quality and vertically aligned graphene with a height of 18.7 µm is obtained under an electric field of 30 V cm −1 . TIMs constructed with the VG arrays exhibit a high vertical thermal conductivity of 53.5 W m −1  K −1 and a low contact thermal resistance of 11.8 K mm 2  W −1 , indicating their significant potential for applications in heat dissipation technologies.

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