Artificial Aging of Thin Films of the Indium-Free Transparent Conducting Oxide SrVO 3
Résumé
SrVO3 (SVO) is a prospective candidate to replace the conventional indium tin oxide (ITO) among the new generation of transparent conducting oxide (TCO) materials. In this study, the structural, electrical, and optical properties of SVO thin films, both epitaxial and polycrystalline, are determined during and after heat treatments in the 150–250 °C range and under ambient environment in order to explore the chemical stability of this material. The use of these relatively low temperatures speeds up the natural aging of the films and allows following the evolution of their related properties. The combination of techniques rather sensitive to the film surface and of techniques sampling the film volume will emphasize the presence of a surface oxidation evolving in time at low annealing temperatures, whereas the perovskite phase is destroyed throughout the film for treatments above 200 °C. The present study is designed to understand the thermal degradation and long-term stability issues of vanadate-based TCOs and to identify technologically viable solutions for the application of this group as new TCOs.
Mots clés
transparent conducting oxide ; perovskite oxide ; SrVO3 ; thin film ; pulsed laser deposition ; artificial aging ; oxidation
transparent conducting oxide ; perovskite oxide ; SrVO3 ; thin film ; pulsed laser deposition ; artificial aging ; oxidation
transparent conducting oxide ; perovskite oxide ; SrVO3 ; thin film ; pulsed laser deposition ; artificial aging ; oxidation
transparent conducting oxide ; perovskite oxide ; SrVO3 ; thin film ; pulsed laser deposition ; artificial aging ; oxidation