Fangyu Cao scite author profile

In this work, we report a dielectric nanocomposite paper with layered boron nitride (BN) nanosheets wired by one-dimensional (1D) nanofibrillated cellulose (NFC) that has superior thermal and mechanical properties. These nanocomposite papers are fabricated from a filtration of BN and NFC suspensions, in which NFC is used as a stabilizer to stabilize BN nanosheets. In these nanocomposite papers, two-dimensional (2D) nanosheets form a thermally conductive network, while 1D NFC provides mechanical strength. A high thermal conductivity has been achieved along the BN paper surface (up to 145.7 W/m K for 50 wt % of BN), which is an order of magnitude higher than that in randomly distributed BN nanosheet composites and is even comparable to the thermal conductivity of aluminum alloys. Such a high thermal conductivity is mainly attributed to the structural alignment within the BN nanosheet papers; the effects of the interfacial thermal contact resistance are minimized by the fact that the heat transfer is in the direction parallel to the interface between BN nanosheets and that a large contact area occurs between BN nanosheets.

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Supercooling suppression of microencapsulated phase change materials by optimizing shell composition and structure

Cao

Yang

2014

Applied Energy

153

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Synthesis of carbon–Fe3O4 coaxial nanofibres by pyrolysis of ferrocene in supercritical carbon dioxide

Cao

Chen

Wang

et al. 2007

Carbon

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Synthesis and thermal characterization of phase-changeable indium/polyalphaolefin nanofluids

2008

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Fangyu Cao

Highly Thermally Conductive Papers with Percolative Layered Boron Nitride Nanosheets

Supercooling suppression of microencapsulated phase change materials by optimizing shell composition and structure

Synthesis of carbon–Fe3O4 coaxial nanofibres by pyrolysis of ferrocene in supercritical carbon dioxide

Synthesis and thermal characterization of phase-changeable indium/polyalphaolefin nanofluids

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