Electrically Insulating Thermal Nano-Oils Using 2D Fillers

Electrically Insulating Thermal Nano-Oils Using 2D Fillers

Different nanoscale fillers have been used to create composite fluids for applications such as thermal management. The ever increasing thermal loads in applications now require advanced operational fluids, for example, high thermal conductivity dielectric oils in transformers. These oils require exc...

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Bibliographic Details
Published in:ACS nano Vol. 6; no. 2; pp. 1214 - 1220
Main Authors: Taha-Tijerina, Jaime, Narayanan, Tharangattu N, Gao, Guanhui, Rohde, Matthew, Tsentalovich, Dmitri A, Pasquali, Matteo, Ajayan, Pulickel M
Format: Journal Article
Language:English
Published: United States American Chemical Society 28-02-2012
Subjects:
Boron Compounds - chemistry
Boron nitride
Electric Impedance
Fillers
Fluid dynamics
Fluid flow
Heat transfer
Mineral Oil - chemistry
Nanostructure
Nanostructures - chemistry
Surface Properties
Temperature
Thermal conductivity
Thermal management
Transformers
Viscosity
electrically insulating fluids
nanofluids
thermal management
h-BN
2D materials
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Summary:Different nanoscale fillers have been used to create composite fluids for applications such as thermal management. The ever increasing thermal loads in applications now require advanced operational fluids, for example, high thermal conductivity dielectric oils in transformers. These oils require excellent filler dispersion, high thermal conduction, but also electrical insulation. Such thermal oils that conform to this thermal/electrical requirement, and yet remain in highly suspended stable state, have not yet been synthesized. We report here the synthesis and characterization of stable high thermal conductivity Newtonian nanofluids using exfoliated layers of hexagonal boron nitride in oil without compromising its electrically insulating property. Two-dimensional nanosheets of hexagonal boron nitride are liquid exfoliated in isopropyl alcohol and redispersed in mineral oil, used as standard transformer oil, forming stable nanosuspensions with high shelf life. A high electrical resistivity, even higher than that of the base oil, is maintained for the nano-oil containing small weight fraction of the filler (0.01 wt %), whereas the thermal conductivity was enhanced. The low dissipation factor and high pour point for this nano-oil suggests several applications in thermal management.
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ISSN:1936-0851
1936-086X
DOI:10.1021/nn203862p