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Summary: This study presents a simple in-situ hydrothermal method for producing BiVO4/MoS2 binary nano composites as visible-light-driven catalysts, showing superior antibacterial photocatalytic performance and cycling stability, which can be attributed to their large surface area and tunable bandgap.
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Balasubramanian Sriram et al.
Summary: This study develops a highly sensitive electrode material for the detection of NO2-Tyr by integrating the unique features of BiVO4 and MoS2. The MoS2@BiVO4 heterojunction exhibits excellent electrochemical behavior, allowing for the measurement of NO2-Tyr in biological media without time-consuming pretreatments. The synergistic interactions between BiVO4 and MoS2 contribute to low resistance charge transfer, a good response range, and a lower limit of detection for NO2-Tyr.
INORGANIC CHEMISTRY
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Jing Guo et al.
Summary: Octahedral MnS synthesized via the hydrothermal route exhibits excellent adsorption-photocatalytic activity and durability, making it a potential material for the removal of antibiotics from wastewater under visible light conditions.
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Summary: In this study, bismuth vanadate (BiVO4) photocatalyst was bio-fabricated using Curcuma longa, resulting in the successful fabrication of a heterojunction between C. longa and BiVO4. The as-fabricated nanoflowers showed highly efficient photocatalytic degradation of organochlorine pesticides under visible-light irradiation, outperforming pristine BiVO4 and previous materials. Optical studies and analysis revealed the degradation pathways and mechanism of this catalyst.
JOURNAL OF CLEANER PRODUCTION
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Jiping Li et al.
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CHINESE JOURNAL OF CATALYSIS
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Weiqi Guo et al.
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Review
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Summary: This review summarizes strategies for improving the photocurrent density and hydrogen production of BiVO4 materials through PEC techniques in the last three years, aiming to serve as a guideline for fabricating highly efficient BiVO4-based materials for PEC water splitting.
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