Highly in-Plane Thermally Conductive Composite Films
from Hexagonal Boron Nitride Microplatelets Assembled with Graphene
Oxide
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Abstract
With the development
of portable and flexible devices, demands
for high-performance thermal management materials with high in-plane
thermal conductivity (TC), mechanical flexibility, and electrical
insulation are growing. Hexagonal boron nitride (BN) is a promising
thermally conductive filler due to its high in-plane TC and electrical
insulation. In this work, taking full advantage of good film-forming
feature of graphene oxide (GO) suspension and its ability to stably
disperse BN microplatelets (BNMPs) in the aqueous medium, the GO/BNMPs
composite films with high in-plane TCs were prepared by a simple cast-drying
method. The structure characterization demonstrated that GO can induce
BNMPs to preferably arrange in-plane orientation in the composite
films. The resultant composite films possessed a maximum in-plane
TC value of 10.3 W/m路K at 50 wt % BNMPs. Moreover, the films
exhibited excellent mechanical flexibility and satisfactory electrical
insulation. The proposed method of fabricating BNMPs-based composite
films in this work is facile handling, eco-friendly, and suitable
for large-scale production, and it therefore enables potential applications
in flexible electronics