D. A. Andrusenko scite author profile

Photoacoustic effect in nanocomposite structure ‘porous silicon-liquid’ has been investigated. Main mechanisms involved in the formation of photoacoustic signal in such structures have been experimentally studied. Liquids with different viscosity (ethanol and acetone) filling the nanopores have been used. A proposed mathematical model describing the photoacoustic signal formation was found to be in good agreement with the experimental results. The role of thermally induced pressures provoked by the liquids confined inside the nanopores in the photoacoustic process has been analyzed.

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Thermal conductivity of meso-porous germanium

Isaiev

Tutashkonko

Jean

et al. 2014

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Thermal conductivity value of sponge-like meso-porous germanium (meso-PGe) layers measured by means of photoacoustic technique is reported. The room temperature thermal conductivity value is found to be equal to 0.6 W/(m K). The experimental results are in excellent agreement with molecular dynamic and Monte Carlo simulations. Both experiments and simulations show an important thermal conductivity reduction of the meso-PGe layers compared to the bulk Ge. The obtained results reveal meso-PGe as an interesting candidate for both thermoelectric and photovoltaic applications in which thermal transport is a really crucial issue.

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Features of photoacoustic transformation in microporous nanocrystalline silicon

et al. 2014

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D. A. Andrusenko

Investigation of Thermal Transport Properties of Porous Silicon by Photoacoustic Technique

Thermal conductivity of partially amorphous porous silicon by photoacoustic technique

Photoacoustic effects in nanocomposite structure ‘porous silicon-liquid’

Thermal conductivity of meso-porous germanium

Features of photoacoustic transformation in microporous nanocrystalline silicon

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