Haikun Hu scite author profile

Excessive nitrogen (N) and phosphorus (P) result in serious eutrophication of water. In this study, magnesium modified acid bentonite was prepared by the impregnation method, and nitrogen and phosphorus were simultaneously removed by the magnesium ammonium phosphate method (MAP), which solved the problem of the poor adsorption capacity of bentonite. The morphology and structure of MgO-SBt were characterized by XRD, FT-IR, SEM, EDS, XPS, BET, etc. The results show that the acidified bentonite can increase the distance between bentonite layers, the layer spacing is expanded to 1.560 nm, and the specific surface area is expanded to 95.433 m 2 /g. After Mg modification, the characteristic peaks of MgO appear at 2θ of 42.95°, 62.31°, and 78.72°, indicating that MgO has been successfully loaded and that MgO bonded to the surface and interior pores of the acidified bentonite, boosting adsorption performance. When the dosage of MgO-SBt is 0.25 g/L, pH = 9, and N/P ratio is 5:1, the maximum adsorption capacity of MgO-SBt for N and P can reach 193.448 mg/g and 322.581 mg/g. In addition, the mechanism of the simultaneous adsorption of nitrogen and phosphorus by MgO-SBt was deeply characterized by the kinetic model, isothermal adsorption model, and thermodynamic model. The results showed that the simultaneous adsorption of nitrogen and phosphorus by MgO-SBt was chemisorption and a spontaneous exothermic process.

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Graphene Quantum Dots Modified Hexagonal Prisms H-Moo3 for Enhanced Photocatalytic Degradation of Methylene Blue Under Uv Light Irradiation

Liu

Luo

et al. 2023

Preprint

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Graphene quantum dots modified hexagonal prisms h-MoO3 for enhanced photocatalytic degradation of methylene blue under UV light irradiation

Liu

Luo

et al. 2023

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Construction of PANI‐ZnFe₂O₄/FAC materials with fly ash cenospheres beads as a carrier to enhance the degradation of Methylene Blue

Qin

Yuan

et al. 2023

ChemistrySelect

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In this study, zinc ferrate (ZnFe2O4) and polyaniline (PANI) were coated on the surface of FAC by hydrothermal and in situ polymerisation using the floating property of fly ash cenospheres (FAC) to form PANI‐ZnFe2O4/FAC composites. Compared with other reference materials, the PANI‐ZnFe2O4/FAC material not only solves the problem of less easy recycling, but also has significantly enhanced photocatalytic activity for methylene blue (MB). The significant increase in catalytic efficiency is attributed to the synergistic effect of PANI and ZnFe2O4 on the FAC surface resulting in efficient separation and low photogenerated charge complexation rates. In addition, cycling tests have shown the material to be stable and reusable. Active species capture experiments show that ⋅O2− and h+ play a dominant role in the reaction system.

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Constructing novel inorganic-organic α-Fe2O3/SNW-1 Z-scheme heterojunction for Methylene Blue photodegradation

Liu

Yuan

Luo

et al. 2023

Journal of Solid State Chemistry

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Haikun Hu

Simultaneous Recovery of Nitrogen and Phosphorus from Sewage by Magnesium Ammonium Phosphate Method with Magnesium-Loaded Bentonite

Graphene Quantum Dots Modified Hexagonal Prisms H-Moo3 for Enhanced Photocatalytic Degradation of Methylene Blue Under Uv Light Irradiation

Graphene quantum dots modified hexagonal prisms h-MoO3 for enhanced photocatalytic degradation of methylene blue under UV light irradiation

Construction of PANI‐ZnFe₂O₄/FAC materials with fly ash cenospheres beads as a carrier to enhance the degradation of Methylene Blue

Constructing novel inorganic-organic α-Fe2O3/SNW-1 Z-scheme heterojunction for Methylene Blue photodegradation

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Haikun Hu

Simultaneous Recovery of Nitrogen and Phosphorus from Sewage by Magnesium Ammonium Phosphate Method with Magnesium-Loaded Bentonite

Graphene Quantum Dots Modified Hexagonal Prisms H-Moo3 for Enhanced Photocatalytic Degradation of Methylene Blue Under Uv Light Irradiation

Graphene quantum dots modified hexagonal prisms h-MoO3 for enhanced photocatalytic degradation of methylene blue under UV light irradiation

Construction of PANI‐ZnFe2O4/FAC materials with fly ash cenospheres beads as a carrier to enhance the degradation of Methylene Blue

Constructing novel inorganic-organic α-Fe2O3/SNW-1 Z-scheme heterojunction for Methylene Blue photodegradation

Contact Info

Product

Resources

About

Construction of PANI‐ZnFe₂O₄/FAC materials with fly ash cenospheres beads as a carrier to enhance the degradation of Methylene Blue