AUTHOR=Bipasha Ferdaushi Alam , Gomes Lídia C. , Qu Jiaxing , Ertekin Elif TITLE=Intrinsic properties and dopability effects on the thermoelectric performance of binary Sn chalcogenides from first principles JOURNAL=Frontiers in Electronic Materials VOLUME=2 YEAR=2022 URL=https://www.frontiersin.org/journals/electronic-materials/articles/10.3389/femat.2022.1059684 DOI=10.3389/femat.2022.1059684 ISSN=2673-9895 ABSTRACT=
High-performance thermoelectric (TE) materials rely on semiconductors with suitable intrinsic properties for which carrier concentrations can be controlled and optimized. To demonstrate the insights that can be gained in computational analysis when both intrinsic properties and dopability are considered in tandem, we combine the prediction of TE quality factor (intrinsic properties) with first-principles simulations of native defects and carrier concentrations for the binary Sn chalcogenides SnS, SnSe, and SnTe. The computational predictions are compared to a comprehensive data set of previously reported TE figures-of-merit for each material, for both p-type and n-type carriers. The combined analysis reveals that dopability limits constrain the TE performance of each Sn chalcogenide in a distinct way. In SnS, TE performance for both p-type and n-type carriers is hindered by low carrier concentrations, and improved performance is possible only if higher carrier concentrations can be achieved by suitable extrinsic dopants. For SnSe, the p-type performance of the