Namiko Yamamoto scite author profile

Nanostructured composites containing aligned carbon nanotubes (CNTs) are very promising as interface materials for electronic systems and thermoelectric power generators. We report the first data for the thermal conductivity of densified, aligned multiwall CNT nanocomposite films for a range of CNT volume fractions. A 1 vol % CNT composite more than doubles the thermal conductivity of the base polymer. Denser arrays (17 vol % CNTs) enhance the thermal conductivity by as much as a factor of 18 and there is a nonlinear trend with CNT volume fraction. This article discusses the impact of CNT density on thermal conduction considering boundary resistances, increased defect concentrations, and the possibility of suppressed phonon modes in the CNTs.

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Fabrication and multifunctional properties of a hybrid laminate with aligned carbon nanotubes grown In Situ

García

Wardle

Hart

et al. 2008

Composites Science and Technology

405

257

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Exposure to nanoscale particles and fibers during machining of hybrid advanced composites containing carbon nanotubes

et al. 2008

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High-yield growth and morphology control of aligned carbon nanotubes on ceramic fibers for multifunctional enhancement of structural composites

Yamamoto

Hart

García

et al. 2009

Carbon

177

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Particle exposure levels during CVD growth and subsequent handling of vertically-aligned carbon nanotube films

Bello

Hart

Ahn

et al. 2008

Carbon

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Electrical and thermal property enhancement of fiber-reinforced polymer laminate composites through controlled implementation of multi-walled carbon nanotubes

Yamamoto

Villoria

Wardle

2012

Composites Science and Technology

125

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Thin Films with Ultra‐low Thermal Expansion

et al. 2014

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Characterization of Exposures To Nanoscale Particles and Fibers During Solid Core Drilling of Hybrid Carbon Nanotube Advanced Composites

Bello¹,

Wardle²,

Zhang³

et al. 2010

International Journal of Occupational and Environmental Health

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Namiko Yamamoto

Thermal Conduction in Aligned Carbon Nanotube–Polymer Nanocomposites with High Packing Density

Fabrication and multifunctional properties of a hybrid laminate with aligned carbon nanotubes grown In Situ

Exposure to nanoscale particles and fibers during machining of hybrid advanced composites containing carbon nanotubes

High-yield growth and morphology control of aligned carbon nanotubes on ceramic fibers for multifunctional enhancement of structural composites

Particle exposure levels during CVD growth and subsequent handling of vertically-aligned carbon nanotube films

Electrical and thermal property enhancement of fiber-reinforced polymer laminate composites through controlled implementation of multi-walled carbon nanotubes

Thin Films with Ultra‐low Thermal Expansion

Characterization of Exposures To Nanoscale Particles and Fibers During Solid Core Drilling of Hybrid Carbon Nanotube Advanced Composites

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