Shravan Godse scite author profile

Shravan Godse

2Publications

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129Citation Statements Given

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Anharmonic lattice dynamics and thermal transport in type-I inorganic clathrates

Godse¹,

Srivastava²,

Jain³

2022

J. Phys.: Condens. Matter

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The anharmonic phonon properties of type-I filled inorganic clathrates Ba8Ga16Ge30 and Sr8Ga16Ge30 are obtained from the first-principles calculations by considering the temperature-dependent sampling of the potential energy surface and quartic phonon renormalization. Owing to the weak binding of guest atoms with the host lattice, the obtained guest modes undergo strong renormalization with temperature and become stiffer by up to 50% at room temperature in Sr8Ga16Ge30. The calculated phonon frequencies and associated thermal mean squared displace- ments are comparable with experiments despite the on-centering of guest atoms at cage centers in both clathrates. Lattice thermal conductivities are obtained in the temperature range of 50- 300 K accounting for three-phonon scattering processes and multi-channel thermal transport. The contribution of coherent transport channel is significant at room temperature (13% and 22% in Ba8Ga16Ge30 and Sr8Ga16Ge30) but is insufficient to explain the experimentally observed glass-like thermal transport in Sr8Ga16Ge30.

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High-throughput computational discovery of 40 ultralow thermal conductivity and 20 highly anisotropic crystalline materials

Jain¹,

Veeravenkata²,

Godse³

et al. 2022

Preprint

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We performed ab-initio driven density functional theory-based high throughput computations to search for materials with low thermal conductivity and high thermal transport anisotropy. We shortlisted a pool of 429 stable ternary semiconductors from the Materials Project and obtained phonon thermal conductivity by solving the Boltzmann transport equation on 225 materials. We found the lowest thermal conductivity of 0.16 W/m-K in SbRbK2 and 40 materials with a thermal conductivity lower than 1 W/m-K at 300 K. For anisotropic thermal transport, we have identified six materials with anisotropy larger than 5 and 20 with thermal transport anisotropy higher than the largest reported literature value.

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Shravan Godse

Anharmonic lattice dynamics and thermal transport in type-I inorganic clathrates

High-throughput computational discovery of 40 ultralow thermal conductivity and 20 highly anisotropic crystalline materials

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