Abstract
We report the enhancement of electric and fatigue-endurance properties of vanadium-doped SrBi4Ti4O15 (SBTi) thin films deposited by a refined sol-gel method. The structures and surface morphologies of the films were characterized by x-ray diffraction, atomic force microscopy, and scanning electron microscopy. Their electric properties were investigated systematically. Compared to the undoped SBTi, V-doped SBTi [(SrBi3.99Ti3.97V0.03O15) (SBTV)] showed a larger remnant polarization (2Pr), lower coercive electric field, lower leakage current density, and a better fatigue resistance. The 2Pr of SBTV was 35.9μC∕cm2, which was much higher than that of SBTi (25.3μC∕cm2). Importantly, at a low frequency of 50kHz, the SBTV film showed no variation of Pnv and −Pnv after 2.2×109 switching cycles, suggesting excellent fatigue-endurance characteristics.
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