4.6 Article

Violation of the T-1 Relationship in the Lattice Thermal Conductivity of Mg3Sb2 with Locally Asymmetric Vibrations

Journal

RESEARCH
Volume 2020, Issue -, Pages -

Publisher

AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.34133/2020/4589786

Keywords

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Funding

  1. National Key Research and Development Program of China [2018YFB0703600, 2017YFB0701600, 2019YFA0704901]
  2. Natural Science Foundation of China [11674211, 51632005, 51761135127]
  3. 111 Project [D16002]
  4. Guangdong Innovation Research Team Project [2017ZT07C062]
  5. Guangdong Provincial Key Lab program [2019B030301001]
  6. Shenzhen Municipal Key Lab program [ZDSYS20190902092905285]
  7. Shenzhen Pengcheng-Scholarship Program
  8. Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) [392228380]
  9. U.S. Department of Commerce
  10. National Institute of Standards and Technology as part of the Center for Hierarchical Materials Design (CHiMaD) [70NANB14H012]
  11. Office of Science of the U.S. Department of Energy (U.S. Department of Energy) [DEAC02-05CH11231]

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Most crystalline materials follow the guidelines of T-1 temperature-dependent lattice thermal conductivity (kappa(L)) at elevated temperatures. Here, we observe a weak temperature dependence of kappa(L) in Mg3Sb2, T-0.48 from theory and T-0.57 from measurements, based on a comprehensive study combining ab initio molecular dynamics calculations and experimental measurements on single crystal Mg3Sb2. These results can be understood in terms of the so-called phonon renormalization effects due to the strong temperature dependence of the interatomic force constants (IFCs). The increasing temperature leads to the frequency upshifting for those low-frequency phonons dominating heat transport, and more importantly, the phonon-phonon interactions are weakened. In-depth analysis reveals that the phenomenon is closely related to the temperature-induced asymmetric movements of Mg atoms within MgSb4 tetrahedron. With increasing temperature, these Mg atoms tend to locate at the areas with relatively low force in the force profile, leading to reduced effective 3rd -order IFCs. The locally asymmetrical atomic movements at elevated temperatures can be further treated as an indicator of temperature-induced variations of IFCs and thus relatively strong phonon renormalization. The present work sheds light on the fundamental origins of anomalous temperature dependence of kappa(L), in thermoelectrics.

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