Bismuth-based oxide double-perovskites Bi2MCrO6 exhibit high visible-light absorption and yield a 3.56% efficient solar cell in initial device tests.
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cond-mat.mtrl-sci 2years
2026 2verdicts
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Epitaxial 0.5PZT-0.5PFN multiferroic thin films show polarization-dependent photocurrent of ±20 μA/cm² under 403 nm illumination, indicating coupling between ferroelectric and photovoltaic effects.
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Beyond lead halide perovskites: visible light photovoltaics with phase engineered bismuth-based oxide double-perovskites, Bi2MCrO6 (M = Fe, Mn)
Bismuth-based oxide double-perovskites Bi2MCrO6 exhibit high visible-light absorption and yield a 3.56% efficient solar cell in initial device tests.
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Enhanced Photocurrent Response in Epitaxial 0.5PZT-0.5PFN Multiferroic Thin Films
Epitaxial 0.5PZT-0.5PFN multiferroic thin films show polarization-dependent photocurrent of ±20 μA/cm² under 403 nm illumination, indicating coupling between ferroelectric and photovoltaic effects.