Composite photocatalyst, tetragonal lead bismuth oxyiodide/bismuth oxyiodide/graphitic carbon nitride: Synthesis, characterization, and photocatalytic activity

[Display omitted] Semiconductor photocatalysts that are robust and galvanized by visible light have been increasingly sought after, with lead bismuth oxyhalide (PbBiO2X)—which constitutes a perovskite-like semiconductor—receiving vast attention recently. We noted, after a relevant literature survey,...

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Veröffentlicht in:Journal of colloid and interface science 2019-01, Vol.533, p.319-332
Hauptverfasser: Lee, Ai-Hsuan, Wang, Yi-Chuen, Chen, Chiing-Chang
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description [Display omitted] Semiconductor photocatalysts that are robust and galvanized by visible light have been increasingly sought after, with lead bismuth oxyhalide (PbBiO2X)—which constitutes a perovskite-like semiconductor—receiving vast attention recently. We noted, after a relevant literature survey, that tetragonal lead bismuth oxyiodide/bismuth oxyiodide/graphitic carbon nitride (t-PbBiO2I/Bi5O7I/g-C3N4)-supported crystal violet (CV) dye photocatalytic degradation under irradiation with visible light has yet to be reported. The current study provides the report of t-PbBiO2I/Bi5O7I/g-C3N4 composite isolation and characterization realized through field-emission scanning electron microscopy–energy-dispersive spectroscopy, X-ray diffraction, high-resolution X-ray photoelectron spectroscopy, transmission electron microscopy, photoluminescence spectroscopy, Brunauer–Emmett–Teller analysis, Fourier-transform infrared spectroscopy, and ultraviolet–visible diffuse reflectance spectroscopy. Catalytic performance observation revealed that using t-PbBiO2I/Bi5O7I/g-C3N4 resulted in an optimal reaction rate constant of 0.3518 h−1, a derivation exceeding the derivations for the photocatalysts t-PbBiO2I, Bi5O7I, g-C3N4, and t-PbBiO2I/Bi5O7I by 15, 6.6, 13.1, and 1.4 times, respectively. As demonstrated by the quenching effects associated with diverse scavengers, the electron paramagnetic resonance results revealed reactive O2− to have a major role in the CV dye degradation. The paper proposes and also describes possible photodegradation mechanisms. The method that was realized in this study is valuable for PbBiO2I/Bi5O7I/g-C3N4 synthesis and CV dye photocatalytic degradation for future applications in environmental pollution regulation.
doi_str_mv 10.1016/j.jcis.2018.08.008
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We noted, after a relevant literature survey, that tetragonal lead bismuth oxyiodide/bismuth oxyiodide/graphitic carbon nitride (t-PbBiO2I/Bi5O7I/g-C3N4)-supported crystal violet (CV) dye photocatalytic degradation under irradiation with visible light has yet to be reported. The current study provides the report of t-PbBiO2I/Bi5O7I/g-C3N4 composite isolation and characterization realized through field-emission scanning electron microscopy–energy-dispersive spectroscopy, X-ray diffraction, high-resolution X-ray photoelectron spectroscopy, transmission electron microscopy, photoluminescence spectroscopy, Brunauer–Emmett–Teller analysis, Fourier-transform infrared spectroscopy, and ultraviolet–visible diffuse reflectance spectroscopy. Catalytic performance observation revealed that using t-PbBiO2I/Bi5O7I/g-C3N4 resulted in an optimal reaction rate constant of 0.3518 h−1, a derivation exceeding the derivations for the photocatalysts t-PbBiO2I, Bi5O7I, g-C3N4, and t-PbBiO2I/Bi5O7I by 15, 6.6, 13.1, and 1.4 times, respectively. As demonstrated by the quenching effects associated with diverse scavengers, the electron paramagnetic resonance results revealed reactive O2− to have a major role in the CV dye degradation. The paper proposes and also describes possible photodegradation mechanisms. 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We noted, after a relevant literature survey, that tetragonal lead bismuth oxyiodide/bismuth oxyiodide/graphitic carbon nitride (t-PbBiO2I/Bi5O7I/g-C3N4)-supported crystal violet (CV) dye photocatalytic degradation under irradiation with visible light has yet to be reported. The current study provides the report of t-PbBiO2I/Bi5O7I/g-C3N4 composite isolation and characterization realized through field-emission scanning electron microscopy–energy-dispersive spectroscopy, X-ray diffraction, high-resolution X-ray photoelectron spectroscopy, transmission electron microscopy, photoluminescence spectroscopy, Brunauer–Emmett–Teller analysis, Fourier-transform infrared spectroscopy, and ultraviolet–visible diffuse reflectance spectroscopy. Catalytic performance observation revealed that using t-PbBiO2I/Bi5O7I/g-C3N4 resulted in an optimal reaction rate constant of 0.3518 h−1, a derivation exceeding the derivations for the photocatalysts t-PbBiO2I, Bi5O7I, g-C3N4, and t-PbBiO2I/Bi5O7I by 15, 6.6, 13.1, and 1.4 times, respectively. As demonstrated by the quenching effects associated with diverse scavengers, the electron paramagnetic resonance results revealed reactive O2− to have a major role in the CV dye degradation. The paper proposes and also describes possible photodegradation mechanisms. 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We noted, after a relevant literature survey, that tetragonal lead bismuth oxyiodide/bismuth oxyiodide/graphitic carbon nitride (t-PbBiO2I/Bi5O7I/g-C3N4)-supported crystal violet (CV) dye photocatalytic degradation under irradiation with visible light has yet to be reported. The current study provides the report of t-PbBiO2I/Bi5O7I/g-C3N4 composite isolation and characterization realized through field-emission scanning electron microscopy–energy-dispersive spectroscopy, X-ray diffraction, high-resolution X-ray photoelectron spectroscopy, transmission electron microscopy, photoluminescence spectroscopy, Brunauer–Emmett–Teller analysis, Fourier-transform infrared spectroscopy, and ultraviolet–visible diffuse reflectance spectroscopy. 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subjects Bi5O7I
Composites
g-C3N4
PbBiO2I
Photocatalytic
title Composite photocatalyst, tetragonal lead bismuth oxyiodide/bismuth oxyiodide/graphitic carbon nitride: Synthesis, characterization, and photocatalytic activity
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