Enhancement of Seebeck Coefficient and Thermoelectric Efficiency in Mn-doped SnTe Under Compression

Ravhi S Kumar; Jason L Baker; Changyong Parks; Curtis Kenney-Benson; Jaspreet Singh; Vineet Kumar Sharma; Kanchana Venkatakrishnan; Sébastien Lebègue; Vaitheeswaran Ganapathy; Russell J Hemley; Andrew Lorn Cornelius; Nenad Velisavljevic

Enhancement of Seebeck Coefficient and Thermoelectric Efficiency in Mn-doped SnTe Under Compression

POSTER

Abstract

SnTe is known for its high thermoelectric performance and serves as a lead-free analog with a rocksalt structure similar to PbTe. Mn doping in SnTe further reduces thermal conductivity [1,2]. A significant increase in thermopower was previously reported in pristine SnTe under high pressure, which correlates with a known pressure-induced structural phase transition [3]. We further investigated Mn-doped SnTe using a large-volume Paris-Edinburgh press to compare it with the parent compound. Our study revealed a substantial increase in the Seebeck coefficient and figure of merit (ZT). The figure of merit rises dramatically up to 5 GPa, where a structural phase transition occurs. These results highlight the fundamental relationship between structure and thermoelectric properties and suggest that pressure is an effective tool for tuning them.

References

[1]. Guodong Tanbg., etal., Nature 15, 9133 (2024)

[2]. Liu et al., Inorganic Chem., 63, 5389 (2024)

[3]. Baker et al., J.Phy.Chem.Lett., 12, 1046 (2021)

Publication: Enhancement of Seebeck Coefficient and Thermoelectric Efficiency in Mn-doped SnTe Under Compression, Ravhi Kumar, Jason Baker, Changyong Park, Curtis Kenney-Benson, Jaspreet Singh, Vineet Kumar Sharma, Venkatakrishnan Kanchana, Sebastien Lebegue, Ganapathy Vaitheeswaran, Russell Hemley, Andrew Cornelius and Nenad Velisavljevic (Under preparation)

Presenters

Ravhi S Kumar

University of Illinois at Chicago

Authors

Ravhi S Kumar

University of Illinois at Chicago
Jason L Baker

Lawrence Livermore National Laboratory
Changyong Parks

HPCAT, X-ray Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA, Argonne National Laboratory, HPCAT, X-ray Science Division, Argonne National Laboratory
Curtis Kenney-Benson

HPCAT, X-ray Science Division, Argonne National Laboratory, Argonne National Laboratory
Jaspreet Singh

Departmenet of Physics, Indian Institute of Technology Hyderabad, Kandi, Sangareddy 502285, India
Vineet Kumar Sharma

Departmenet of Physics, Indian Institute of Technology Hyderabad, Kandi, Sangareddy 502285, India
Kanchana Venkatakrishnan

Departmenet of Physics, Indian Institute of Technology Hyderabad, Kandi, Sangareddy 502285, India
Sébastien Lebègue

LEMTA UMR CNRS 7563, 54500 Vandoeuvre-lès-Nancy, France
Vaitheeswaran Ganapathy

School of Physics, University of Hyderabad, Gachibowli, Hyderabad 500046, India
Russell J Hemley

University of Illinois at Chicago
Andrew Lorn Cornelius

University of Nevada, Las Vegas
Nenad Velisavljevic

Lawrence Livermore National Laboratory