Synthesis of TiO2/MOF-801(Zr) by a wet impregnation at room temperature for highly efficient photocatalytic reduction of Cr(Ⅵ)

Wang, Xuejing; Xu, Juan; Liu, Sifan; Yang, Wenwen; Chen, Yanmei; Zhang, Yanhui

doi:10.1016/j.solidstatesciences.2022.106912

Cited by 14 publications

(3 citation statements)

References 51 publications

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“…Compared with other technologies, photocatalysis has the advantages of simple operation, low energy consumption, no secondary pollution, and high efficiency. 13–16 However, there is also a high rate of photogenerated carrier complexation of the catalyst material and limited contact with low concentrations of antibiotics, which is not conducive to the rapid and complete removal of antibiotics. Combining adsorption with photocatalysis to degrade antibiotics is a new strategy to improve the degradation driving force via rapid capture of antibiotics by adsorption and then via photocatalysis to degrade both the antibiotics adsorbed on the surface and the regeneration of the adsorbent.…”

Section: Introductionmentioning

confidence: 99%

“…In general, MOF-801 is generally used to enhance the photocatalytic properties by preparing composites with semiconductors and noble metals. 13,32,33 There are few reports on the improvement of the adsorption and photocatalytic efficiency of MOF-801, and its application in the adsorption and synergistic photocatalytic degradation of antibiotics.…”

Section: Introductionmentioning

confidence: 99%

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Enhanced adsorption and synergistic photocatalytic degradation of tetracycline by MOF-801/GO composites via solvothermal synthesis

Chen

et al. 2022

Environ. Sci.: Nano

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enhanced adsorption and synergistic photocatalytic degradation of tetracycline by MOF-801/GO composites via solvothermal synthesis

Chen

et al. 2022

Environ. Sci.: Nano

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“…Against a background of excessive use of fossil energy and serious environmental pollution, it is crucial to develop green, efficient, and renewable energy sources. − Hydrogen energy is one of the best alternative energy sources because it is renewable and pollution-free. − Photocatalytic hydrogen production technology is considered to be a sustainable strategy to solve growing environmental problems and the energy shortage due to its ability to convert solar energy to hydrogen energy. − Semiconductor photocatalysts have been extensively studied for H 2 evolution since the groundbreaking work on the photocatalytic splitting of TiO 2 for hydrogen production was reported in 1972, including carbides, oxides, sulfides, and phosphates. − TiO 2 has been widely studied due to its excellent photocatalytic activity and nontoxicity. However, the band gap of TiO 2 is about 3.2 eV, meaning that it can absorb only ultraviolet light, which means that most of the sunlight cannot be used .…”

Section: Introductionmentioning

confidence: 99%

Ni₁₂P₅-Supported Marigold-Shaped CdIn₂S₄: A 2D/3D Non-Noble-Metal Catalyst for Visible-Light-Driven Hydrogen Production

Yang

Niu

et al. 2023

J. Phys. Chem. C

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The development of photocatalysts with high catalytic activity and high stability is one of the effective ways to alleviate the energy shortage. A simple hydrothermal method was used to deposit a two-dimensional (2D) non-precious-metal cocatalyst Ni12P5 on the surface of three-dimensional (3D) CdIn2S4 in situ. A 2D/3D Ni12P5/CdIn2S4 heterostructure with close contact was obtained in this work. Its hydrogen production activity can reach 5.01 mmol/g/h, which was about 18 times higher than that of pure CdIn2S4. The apparent quantum yield of 3% Ni12P5/CdIn2S4 at 400 nm was 23.5%. In addition, the band structures of Ni12P5 and CdIn2S4 were calculated according to the experimental data of UV–visible diffuse reflection, Mott–Schottky analysis, and XPS valence band spectrum characterization. With the help of XPS testing, the transfer direction of photogenerated electrons and holes in the composite catalyst was predicted, and then the possible photocatalytic mechanism was speculated.

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Reduction Removal of Cr(VI) Using Oxalic Acid With MOF‐525(Fe) as Catalyst: Performance and Mechanism

Kong,

Xu,

et al. 2024

Applied Organom Chemis

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Hexavalent chromium (Cr(VI)) has attracted great considerations due to their high toxicity, teratogenicity, and carcinogenicity. In this study, four Zr‐MOFs were synthesized and used to comparative study their catalytic performances of oxalic acid (OA) for Cr(VI) removal. Results showed that the removal efficiency for Cr(VI) was reached 65.91%, 78.64%, 53.58%, and 96.32% by MOF‐525, MOF‐525(Co), MOF‐525(Zn), and MOF‐525(Fe) in the presence of OA when the initial Cr(VI) concentration was 100 mg·L−1, respectively. The single‐factor experiments for further improving the Cr(VI) removal by MOF‐525(Fe)/OA demonstrated that the optimal conditions were OA dosage of 790 mg·L−1, and MOF‐525(Fe) dosage of 500 mg·L−1 and pH of 2.0, and the MOF‐525(Fe)/OA system could be used to treat Cr(VI)‐containing wastewater at concentrations below 50 mg·L−1. Ionic strength studies indicated that Na+, K+, Mg2+, Cl−, and SO42− had little effect on the catalytic reduction of Cr(VI), while high concentrations of Ca2+ (0.10 and 0.25 mol·L−1), NO3− (0.25 mol·L−1), and PO43− (0.25 mol·L−1) had significant inhibition effects. The reusability experiments showed that the stability of MOF‐525(Fe) was excellent, and it could be used for potential applications. Based on the results of Fourier transform infrared spectroscopy (FTIR), X‐ray photoelectron spectroscopy (XPS), and Electron Paramagnetic Resonance spectrometer (EPR), the possible reduction mechanism of Cr(VI) by MOF‐525(Fe)/OA system was proposed as follows: The complexation of OA with Fe3+ was first complexed to produce Fe2+ and CO2•−, then Cr(VI) was combined with Zr–O and Fe–O clusters in MOF‐525(Fe) to obtain activation energy, and the reduction ability was enhanced at the same time; finally, Cr(VI) obtained electrons from CO2•− and was sequentially reduced as Cr(V) and Cr(III).

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Synthesis of TiO2/MOF-801(Zr) by a wet impregnation at room temperature for highly efficient photocatalytic reduction of Cr(Ⅵ)

Cited by 14 publications

References 51 publications

Enhanced adsorption and synergistic photocatalytic degradation of tetracycline by MOF-801/GO composites via solvothermal synthesis

Enhanced adsorption and synergistic photocatalytic degradation of tetracycline by MOF-801/GO composites via solvothermal synthesis

Ni₁₂P₅-Supported Marigold-Shaped CdIn₂S₄: A 2D/3D Non-Noble-Metal Catalyst for Visible-Light-Driven Hydrogen Production

Reduction Removal of Cr(VI) Using Oxalic Acid With MOF‐525(Fe) as Catalyst: Performance and Mechanism

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Synthesis of TiO2/MOF-801(Zr) by a wet impregnation at room temperature for highly efficient photocatalytic reduction of Cr(Ⅵ)

Cited by 14 publications

References 51 publications

Enhanced adsorption and synergistic photocatalytic degradation of tetracycline by MOF-801/GO composites via solvothermal synthesis

Enhanced adsorption and synergistic photocatalytic degradation of tetracycline by MOF-801/GO composites via solvothermal synthesis

Ni12P5-Supported Marigold-Shaped CdIn2S4: A 2D/3D Non-Noble-Metal Catalyst for Visible-Light-Driven Hydrogen Production

Reduction Removal of Cr(VI) Using Oxalic Acid With MOF‐525(Fe) as Catalyst: Performance and Mechanism

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Product

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Ni₁₂P₅-Supported Marigold-Shaped CdIn₂S₄: A 2D/3D Non-Noble-Metal Catalyst for Visible-Light-Driven Hydrogen Production