Investigation of electronic, ferroelectric and local electrical conduction behavior of RF sputtered BiFeO3 thin films.
Shahzad HussainSaif Ullah AwanArif MumtazResham SiddiqueMuhammad AftabSyed Khursheed HasanainPublished in: Nanotechnology (2024)
Most of the applied research on BiFeO3(BFO) focuses on magnetoelectric and spintronic applications. This calls for a detailed grasp of multiferroic and conduction properties. BFO thin films with (100) epitaxial growth have been deposited on a LaNiO3(LNO) buffered Pt/Ti/SiO2/Si(100) substrate using RF magnetron sputtering. The film formed at 15 mTorr, 570 °C, and with Ar/O2 4:1 had a reasonably high degree of (100)-preferential orientation, the least surface roughness, and a densely packed structure. We obtained ferroelectric loops with strong polarization (150 μC/cm2). The leakage current density is as low as 10-2A/cm2 at 100 kV/cm, implying that space-charge-limited bulk conduction (SCLC) was the primary conduction channel for carriers within BFO films. Local electrical conduction behavior demonstrates that at lower voltages, the grain boundary dominates electrical conduction and is linked to the displacement of oxygen vacancies in the grain boundary under external electric fields. We hope that a deeper understanding of the conduction mechanism will help integrate BFO into viable technologies. Keywords: Thin Films, Multilayers, Morphological Study, Multiferroics, Ferroelectricity, Local conduction Mechanism
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