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Tyunina, Marina
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Publications (7/7 displayed)
- 2023Small-polaron transport in perovskite nickelatescitations
- 2022Small-polaron conductivity in perovskite ferroelectric BaTiO3 filmscitations
- 2021Hysteresis-Free Piezoresponse in Thermally Strained Ferroelectric Barium Titanate Filmscitations
- 2021The electronic properties of SrTiO3-δ with oxygen vacancies or substitutionscitations
- 2021Anisotropic chemical expansion due to oxygen vacancies in perovskite filmscitations
- 2020In situ anion-doped epitaxial strontium titanate filmscitations
- 2020Oxygen Vacancies in Perovskite Oxide Piezoelectricscitations
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article
Small-polaron conductivity in perovskite ferroelectric BaTiO3 films
Abstract
<jats:p>In ABO3 perovskite oxide ferroelectrics, electrical conductivity ranges from insulator- to superconductor-type and is virtually critical for all applications of these materials. Compared to bulk ceramics and crystals, ferroelectric thin films can enable advanced control of the conductivity. Here, small-polaron hopping conductivity was evidenced and examined in various pulsed-laser-deposited films of ferroelectric BaTiO3 and reference films of SrTiO3. For this, AC conductivity was studied in a broad range of temperatures and frequencies for films sandwiched between the bottom and top electrodes. In the BaTiO3 films, with increasing temperature, a significant increase in activation energy for small-polaron hopping was found and ascribed to strong electron–phonon coupling and complex lattice oscillations therein. Plain relations of the activation energy to microstructure, composition, or phase transitions were lacking, which corroborated the critical role of phonons. Additionally, a phonon-less transport was detected. It was anticipated that owing to strong electron–phonon coupling, rich phonon ensembles, and coexistence of phonon-stimulated and phonon-less processes, the small-polaron conductivity can heavily vary in ferroelectric films that necessitates further studies.</jats:p>