Effect of Cu distribution on thermoelectric properties of evaporated Cu2-xSe films with various Ag contents

Cu2Se is one kind of popular thermoelectric materials due to its performance of the phonon glass-electron crystal. However, the poor thermal stability limits its application. Regulating the distribution of the Cu+ by elemental dopant is a general method to solve the stability and to improve the thermoelectric performance. In this study, the Ag-doped beta-Cu2-xSe films were prepared by vacuum thermal evaporation method. The Cu+ distribution on the octahedral 32(f) sites in the Cu2Se crystal is tuned by the Ag content. It found that when the Ag content is 1.0%, the Cu+ and Ag+ contents in the 32(f) sites reach the maximum. In this case, the power factor of the film is 1750 mu W center dot m-1 center dot K-2 at 530 K. As the Ag content rises, the second phase of CuAgSe appears. This results in the decrease of the power factor. It shows that controlling the distribution of the Cu+ by the Ag dopant is conducive to improve the thermoelectric properties of the beta-Cu2-xSe films.(c) 2023 Published by Elsevier B.V.

Automated summary

In this study, Ag-doped beta-Cu2-xSe films were prepared using the vacuum thermal evaporation method. The distribution of Cu+ on the octahedral 32(f) sites in the Cu2Se crystal was tuned by the Ag content. It was found that when the Ag content was 1.0%, the Cu+ and Ag+ contents in the 32(f) sites reached their maximum, resulting in a power factor of 1750 μW·m-1·K-2 at 530 K. However, as the Ag content increased, the appearance of the second phase CuAgSe led to a decrease in the power factor. The results showed that controlling the distribution of Cu+ by Ag doping is beneficial for improving the thermoelectric properties of beta-Cu2-xSe films.