Toward High-Power Output of Generators: High-Power-Factor Ag₂Te–Ag Thermoelectric Thin Films Using a Layer-by-Layer Method

Abstract: The power factor is key to improving the performance of thin-film thermoelectric generators as power sources. The expected large power factor of Ag2Te testifies to its application potential. In this study, Ag2Te–Ag thin films were fabricated using a layer-by-layer method for controlling their composition and improving their thermoelectric properties. In contrast to the traditional low-temperature monoclinic structure, orthorhombic Ag2Te thin films with Ag nanoparticles on top were obtained by the reaction betw… Show more

“…Using the thermal evaporation process in a 10 -5 Torr vacuum. The thickness of them is (400±20).with rate of deposition (2.07813nm Sec -1 ) [12]. By using the thermal evaporation method, the Ag 2 Te films were doped with the element (Al) in a ratio of (1%, 1.5%).…”

Ag2Te thin films' structural and optical characteristics as a result of Al doping

“…Using the thermal evaporation process in a 10 -5 Torr vacuum. The thickness of them is (400±20).with rate of deposition (2.07813nm Sec -1 ) [12]. By using the thermal evaporation method, the Ag 2 Te films were doped with the element (Al) in a ratio of (1%, 1.5%).…”

Ag2Te thin films' structural and optical characteristics as a result of Al doping