Mechanisms behind the weighted mobility improvement in FeTe<sub>2</sub>-CoTe<sub>2</sub> thermoelectric solid solution alloys

Song, Ui Chan; Rho, Jong Wook; Kim, Junsu; Heo, Minsu; Park, Hyunjin; Kim, Sang-il; Kim, Hyun-Sik; Song, Ui Chan; Rho, Jong Wook; Kim, Junsu; Heo, Minsu; Park, Hyunjin; Kim, Sang-il; Kim, Hyun-Sik

doi:2025.62.6.1137

J. Korean Ceram. Soc. > Volume 62(6); 2025 > Article

Original Article

Journal of the Korean Ceramic Society 2025;62(6): 1137-1145.
doi: https://doi.org/10.1007/s43207-025-00482-5

Mechanisms behind the weighted mobility improvement in FeTe₂-CoTe₂ thermoelectric solid solution alloys

Ui Chan Song¹, Jong Wook Rho², Junsu Kim¹, Minsu Heo¹, Hyunjin Park¹, Sang-il Kim¹, Hyun-Sik Kim¹

¹Department of Materials Science and Engineering, University of Seoul, Seoul, 02504, South Korea
²School of Nano Materials Engineering, Kyungpook National University, Daegu, Gyeongsangbuk-Do, 37224, South Korea

Correspondence

Sang-il Kim ,Email: sang1.kim@uos.ac.kr
Hyun-Sik Kim ,Email: hyunsik.kim@uos.ac.kr

Received: August 16, 2024; Revised: October 29, 2024 Accepted: January 19, 2025. Published online: February 13, 2025.

ABSTRACT

Fe-based dichalcogenides, captivating interest for their narrow 3d bands and potential as thermoelectric materials, have recently garnered attention. Park et al. reported enhanced zT of 0.18 for (Fe_1-xCo_x)Te₂ (x = 0.5) at 600 K, attributing it to the emergence of a flat band near the Fermi level. However, the influence of alloying-induced band engineering and point defect-mediated phonon scattering remains elusive. Herein, we investigate the impact of compositional variation (x) on electronic transport properties using the Single Kane Band model. Our analysis reveals predominant band convergence (x < 0.5) transitioning to band sharpening (x > 0.5). Notably, the weighted mobility, directly linked to the theoretical maximum power factor, exhibits a pronounced increase with increasing x. To evaluate the strength of phonon scattering by point defects, the Callaway-von Baeyer (CvB) model was employed. Surprisingly, the highest scattering parameter was not observed at x = 0.5 (maximum mixing) but at x = 0.25 and 0.75, signifying stronger phonon scattering at these compositions. Finally, considering the weighted mobility and lattice thermal conductivity, the theoretical maximum zT was calculated. Our findings predict a potential enhancement of 118 times in zT for x = 0.75 (0.68) compared to the experimental value at x = 0 (0.005). This study underscores the significant potential for discovering novel, unexplored metal chalcogenide-based solid solutions with enhanced thermoelectric performance.

Key words: Thermoelectric · Solid solution · FeTe₂ · CoTe₂ · Single Kane Band model · Callaway-von Baeyer model