Abstract
SnTe, an environmentally friendly thermoelectric material, has garnered widespread scholarly interest owing to its lead-free nature; however, its intrinsic thermoelectric performance is constrained by a relatively low Seebeck coefficient and an extremely high lattice thermal conductivity. In this investigation, we employ the alloying of Ge and AgSbTe2 to enhance the zT value of SnTe. The study found that Ge, Ag, and Sb can effectively enhance the Seebeck coefficient and power factor of SnTe by utilizing band convergence. At the same time, a multitude of point defects induce phonon scattering, consequently decreasing the lattice thermal conductivity of SnTe. Collectively, these synergistic effects result in Sn0.75Ge0.25Te-15% AgSbTe2 achieving its highest zT value of 1.28 at 823 K, with an average zT value of 0.77 between 400 and 823 K. Such high zT values of the SnTe-based thermoelectric material provide the potential for applications in high-performance solid-state thermoelectric devices.
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