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Thermal Kharkiv Seminars: "Heat Capacity and Thermal Conductivity of Solids at Low Temperatures"

12:00 piątek, 24-07-26
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Glass-like phonon dynamics and thermal transport in a GeTe nanocomposite

prof. Valentina Giordano

Institute of Light and Matter, Université Lyon

With advances in nanoelectronics and the need for novel and more efficient energy harvesting solutions, thermal management has arisen as one of the most urgent challenges. To reduce heat dissipation or improve the thermoelectric efficiency, the ultimate goal is a material with a glass-like thermal conductivity but still good electronic properties, for which nanostructuration is one of the most promising strategies, as nanoscale interfaces are expected to scatter the lattice vibrations.

In this work, we report the experimental evidence of glass-like phonon dynamics and thermal conductivity in a nanocomposite made of GeTe and amorphous carbon, of interest for microelectronics, and specifically phase change memories. We show that the total thermal conductivity is reduced by a factor between 6 and 3 with respect to pure GeTe, due to the reduction of both electronic and phononic contributions. This latter, like in glasses, is small and weakly increasing with temperature between 100 K and 300 K, reaching a value of 0.86 Wm-1K-1 at room temperature. A thorough investigation of the nanocomposite's phonon dynamics reveals the appearance of an excess intensity in the low-energy vibrational density of states, reminiscent of the Boson peak in glasses. These features can be understood in terms of enhanced phonon scattering at the interfaces, due to the presence of elastic heterogeneities, at wavelengths in the 2-20 nm range. Our findings confirm recent simulations on crystalline/amorphous nanocomposites, and suggest a parallelism between glasses and nanocomposites, due to the presence in both of elastic heterogeneities. This will open new perspectives in phonon and thermal engineering through the direct manipulation of elastic heterogeneities.

[1] R. Cravero et al. Small 2024, 2310209

 

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