Multiferroic properties of a YCrO3/BiFeO3 bilayered thin film prepared by a sol-gel method

“…The bottom YCrO 3 layer could favor the grain growth of BiFeO 3 films. The YCrO 3 /BiFeO 3 thin films showed lower leakage current density, lower band gap, and enhanced FM and ferroelectric properties, indicating potential applications as ultraviolet and blue-green-driven photo-catalysts [128].…”

“…An obvious FM hysteresis loop was obtained at 5 K [127]. By the sol-gel method, Kuang et al prepared thin-film YCrO 3 /BiFeO 3 samples on substrate of quartz by spin coating [128]. The bottom YCrO 3 layer could favor the grain growth of BiFeO 3 films.…”

“…A hysteresis of polarization-electric (P-E) loop of the polarization curve presents at 300, 325, and 350 K [72]. Previous studies of YCrO 3 compound focused mainly on polycrystals [74,98,[100][101][102][103][104][105][106][107][108], nanocrystals [109][110][111][112][113][114][115], and thin films [72,83,86,[116][117][118][119][120][121][122][123][124][125][126][127][128][129]. The lack of high-quality and large-scale single-crystalline samples has been a long-standing issue for realizing potential applications to some extent and studying their intrinsic physical properties [130][131][132][133][134][135][136][137].…”

A comprehensive review on the ferroelectric orthochromates: Synthesis, property, and application

“…The bottom YCrO 3 layer could favor the grain growth of BiFeO 3 films. The YCrO 3 /BiFeO 3 thin films showed lower leakage current density, lower band gap, and enhanced FM and ferroelectric properties, indicating potential applications as ultraviolet and blue-green-driven photo-catalysts [128].…”

“…An obvious FM hysteresis loop was obtained at 5 K [127]. By the sol-gel method, Kuang et al prepared thin-film YCrO 3 /BiFeO 3 samples on substrate of quartz by spin coating [128]. The bottom YCrO 3 layer could favor the grain growth of BiFeO 3 films.…”

“…A hysteresis of polarization-electric (P-E) loop of the polarization curve presents at 300, 325, and 350 K [72]. Previous studies of YCrO 3 compound focused mainly on polycrystals [74,98,[100][101][102][103][104][105][106][107][108], nanocrystals [109][110][111][112][113][114][115], and thin films [72,83,86,[116][117][118][119][120][121][122][123][124][125][126][127][128][129]. The lack of high-quality and large-scale single-crystalline samples has been a long-standing issue for realizing potential applications to some extent and studying their intrinsic physical properties [130][131][132][133][134][135][136][137].…”

A comprehensive review on the ferroelectric orthochromates: Synthesis, property, and application

“…To obtain potential multiferroic and optical properties, special attention has been paid to the composite structure with other materials, such as BaTiO 3 [19], PbTiO 3 [20], and BiMnO 3 [21], which is an effective way to optimize the ferroelectric polarization and multiferroic characteristics of BFO [22]. Various studies have investigated the possibility of coupling BFO with metal oxide semiconductors like TiO 2 [23], Fe 3 O 4 [24] and NiO [25], which are commonly used to modulate the built-in electric field in the BFO/semiconductor interfaces.…”

Modulating light absorption and multiferroic properties of BiFeO₃-based ferroelectric films by the introduction of ZnO layer

Multiferroic Materials