Issue 15, 2025
From the journal:

Dalton Transactions

Thermal properties and ultra-low thermal conductivity of Zn2GeSe4

Oluwagbemiga P. Ojo, ORCID logo a   Wilarachchige D. C. B. Gunatilleke, ORCID logo a   Adam J. Biacchi, ORCID logo b   Hsin Wangc  and  George S. Nolas ORCID logo *a  

* Corresponding authors

a Department of Physics, University of South Florida, Tampa, FL, USA
E-mail: gnolas@usf.edu

b Nanoscale Device Characterization Division, National Institute of Standards and Technology (NIST), Gaithersburg, MD 20899, USA

c Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831, USA

Abstract

Material-related discovery continues to drive advancements in technologically significant fields of interest. Moreover, an understanding of the thermal properties of materials is essential for any application of interest. Here we report on the structural, optical and thermal properties of Zn2GeSe4, which forms in the sphalerite crystal structure with an indirect 1.85 eV band gap, as obtained from our optical spectroscopy measurements. Analyses and modeling of the temperature-dependent thermal properties reveal a low speed of sound and Debye temperature, with ultra-low thermal conductivity over a large temperature range due to low-frequency soft modes as well as strong lattice anharmonicity. Our findings are presented and discussed in the context of the current intense interest in metal chalcogenides and will facilitate the development of these and similar materials for applications where low thermal conductivity is of interest.

Graphical abstract: Thermal properties and ultra-low thermal conductivity of Zn2GeSe4

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Article information

DOI
https://doi.org/10.1039/D5DT00033E
Article type
Paper
Submitted
06 Jan 2025
Accepted
10 Mar 2025
First published
11 Mar 2025
This article is Open Access
Creative Commons BY-NC license

Dalton Trans., 2025,54, 6233-6238

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Thermal properties and ultra-low thermal conductivity of Zn2GeSe4

O. P. Ojo, W. D. C. B. Gunatilleke, A. J. Biacchi, H. Wang and G. S. Nolas, Dalton Trans., 2025, 54, 6233 DOI: 10.1039/D5DT00033E

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