Tuning of Electrical and Optical Properties of Highly Conducting and Transparent Ta-Doped TiO2Polycrystalline Films

Abstract

We present a detailed study on polycrystalline transparent conducting Ta-doped TiO2 films, obtained by room-temperature pulsed laser deposition followed by an annealing treatment at 550 °C in vacuum. The effects of Ta as a dopant element and of different synthesis conditions are explored to assess the relationship between material structure and functional properties, that is, electrical conductivity and optical transparency. We show that for the doped samples, it is possible to achieve low resistivity (of the order of 5 × 10–4 Ω cm) coupled with transmittance values exceeding 80% in the visible range, showing the potential of polycrystalline Ta:TiO2 for application as a transparent electrode in novel photovoltaic devices. The presence of trends in the structural (crystalline domain size, anatase cell parameters), electrical (resistivity, charge carrier density, and mobility), and optical (transmittance, optical band gap, effective mass) properties as a function of the oxygen background pressure and laser ...