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Meeting

2024 TMS Annual Meeting & Exhibition

Symposium

Alloys and Compounds for Thermoelectric and Solar Cell Applications XII

Presentation Title

Thermal Conductivity Reduction and Thermoelectric Performance Enhancement of SrTiO₃ by Hydride Anion Substitution

Author(s)

Xinyi He, Seiya Nomoto, Takayoshi Katase, Terumasa Tadano, Toshio Kamiya

On-Site Speaker (Planned)

Xinyi He

Abstract Scope

Developing high-efficiency and eco-friendly thermoelectric materials has been a significant challenge. Conventional thermometric materials rely on heavy (toxic) elements to reduce lattice thermal conductivity (κ_lat). In this study, we demonstrated that hydride anion (H⁻) substitution effectively suppresses κ_lat and enhances the thermometric performance (ZT) of SrTiO₃ without utilizing heavy elements. We experimentally clarified that H⁻ substitution significantly suppresses κ_lat from 8.2 W/(mK) of SrTiO₃ to 3.6 W/(mK) of SrTiO_3-xH_x bulk polycrystals with x = 0.216. Consequently, the SrTiO_3-xH_x polycrystals exhibit a maximum ZT value of 0.11 at room temperature, which further increases to 0.22 at T = 657 K. Theoretical calculations elucidated that H⁻ substitution leads to a mixture of strong Ti-O bonds and weak Ti-H bonds, resulting in the enhanced phonon scattering through the randomly distributed Ti-(O,H) bonds. The H⁻ substitution idea offers a novel approach for ZT enhancement in thermoelectric oxides without utilizing heavy elements.

Proceedings Inclusion?

Planned:

Keywords

Energy Conversion and Storage,

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