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Strongly Anharmonic Phonons and Their Role in Superionic Diffusion and Ultralow Thermal Conductivity of Cu7PSe6

Publication ,  Journal Article
Gupta, MK; Ding, J; Bansal, D; Abernathy, DL; Ehlers, G; Osti, NC; Zeier, WG; Delaire, O
Published in: Advanced Energy Materials
June 1, 2022

The quest for advanced superionic materials requires understanding their complex atomic dynamics, but detailed studies of the interplay between lattice vibrations and ionic diffusion remain scarce. Here inelastic and quasielastic neutron scattering measurements in the superionic argyrodite Cu7PSe6 are reported, combined with molecular dynamics (MD) based on ab initio and machine-learned potentials, providing critical insights into the atomistic mechanisms underlying fast ion conduction. The results reveal how long-range Cu diffusion is limited by intercluster hopping, controlled by selective anharmonic phonons of the crystalline framework. Further, the Green–Kubo simulations reproduce the ultralow lattice thermal conductivity and identify contributions from mobile ions, phonons, and their cross-correlations. The mode resolved analysis shows that the thermal conductivity is dominated by low-energy acoustic phonon modes of the overall crystal framework. The analysis of mode-resolved spectral functions further show that vibrational modes with significant Cu contributions are strongly damped, corresponding to the breakdown of associated phonon quasiparticles. These results highlight the importance of strongly anharmonic effects in superionic systems, in which the traditional quasiharmonic phonon picture is insufficient, and pave the way toward combining machine-learning accelerated simulations with neutron scattering experiments to rationalize the complex atomic dynamics underlying ionic and thermal transport.

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Published In

Advanced Energy Materials

DOI

EISSN

1614-6840

ISSN

1614-6832

Publication Date

June 1, 2022

Volume

12

Issue

23

Related Subject Headings

  • 4016 Materials engineering
  • 3403 Macromolecular and materials chemistry
  • 0915 Interdisciplinary Engineering
  • 0912 Materials Engineering
  • 0303 Macromolecular and Materials Chemistry
 

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Gupta, M. K., Ding, J., Bansal, D., Abernathy, D. L., Ehlers, G., Osti, N. C., … Delaire, O. (2022). Strongly Anharmonic Phonons and Their Role in Superionic Diffusion and Ultralow Thermal Conductivity of Cu7PSe6. Advanced Energy Materials, 12(23). https://doi.org/10.1002/aenm.202200596
Gupta, M. K., J. Ding, D. Bansal, D. L. Abernathy, G. Ehlers, N. C. Osti, W. G. Zeier, and O. Delaire. “Strongly Anharmonic Phonons and Their Role in Superionic Diffusion and Ultralow Thermal Conductivity of Cu7PSe6.” Advanced Energy Materials 12, no. 23 (June 1, 2022). https://doi.org/10.1002/aenm.202200596.
Gupta MK, Ding J, Bansal D, Abernathy DL, Ehlers G, Osti NC, et al. Strongly Anharmonic Phonons and Their Role in Superionic Diffusion and Ultralow Thermal Conductivity of Cu7PSe6. Advanced Energy Materials. 2022 Jun 1;12(23).
Gupta, M. K., et al. “Strongly Anharmonic Phonons and Their Role in Superionic Diffusion and Ultralow Thermal Conductivity of Cu7PSe6.” Advanced Energy Materials, vol. 12, no. 23, June 2022. Scopus, doi:10.1002/aenm.202200596.
Gupta MK, Ding J, Bansal D, Abernathy DL, Ehlers G, Osti NC, Zeier WG, Delaire O. Strongly Anharmonic Phonons and Their Role in Superionic Diffusion and Ultralow Thermal Conductivity of Cu7PSe6. Advanced Energy Materials. 2022 Jun 1;12(23).
Journal cover image

Published In

Advanced Energy Materials

DOI

EISSN

1614-6840

ISSN

1614-6832

Publication Date

June 1, 2022

Volume

12

Issue

23

Related Subject Headings

  • 4016 Materials engineering
  • 3403 Macromolecular and materials chemistry
  • 0915 Interdisciplinary Engineering
  • 0912 Materials Engineering
  • 0303 Macromolecular and Materials Chemistry