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    Journals >Journal of Inorganic Materials >Volume 39 >Issue 3 >Page 321 > Article
    • Journal of Inorganic Materials
    • Vol. 39, Issue 3, 321 (2023)
    II/Z-type Bi2MoO6/Ag2O/Bi2O3 Heterojunction for Photocatalytic Degradation of Tetracycline under Visible Light Irradiation
    Maosen YE1, Yao WANG1,*, Bing XU1, Kangkang WANG1..., Shengnan ZHANG2 and Jianqing FENG2|Show fewer author(s)
    Author Affiliations
  • 11. School of Chemistry and Chemical Engineering, Xi’an University of Architecture and Technology, Xi’an 710055, China
  • 22. Northwest Institute for Nonferrous Metal Research, Xi’an 710016, China
    • show less
    DOI: 10.15541/jim20230408 Cite this Article
    Maosen YE, Yao WANG, Bing XU, Kangkang WANG, Shengnan ZHANG, Jianqing FENG. II/Z-type Bi2MoO6/Ag2O/Bi2O3 Heterojunction for Photocatalytic Degradation of Tetracycline under Visible Light Irradiation [J]. Journal of Inorganic Materials, 2023, 39(3): 321 Copy Citation Text show less
    References

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    [2] Q Q ZHANG, G G YING, C G PAN et al. Comprehensive evaluation of antibiotics emission and fate in the River Basins of China: source analysis, multimedia modeling, and linkage to bacterial resistance. Environmental Science & Technology, 6772(2015).

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    [6] M SONG, K QI, Y WEN et al. Rational design of novel three-dimensional reticulated Ag2O/ZnO Z-scheme heterojunction on Ni foam for promising practical photocatalysis. Science of The Total Environment, 148519(2021).

    [7] X REN, R CHEN, S DING et al. Preparation and photocatalytic performance of a magnetically recyclable ZnFe2O4@TiO2@Ag2O p-n/Z-type tandem heterojunction photocatalyst: degradation pathway and mechanism. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 130604(2023).

    [8] K LI, S LI, J ZHANG et al. Preparation and stabilization of γ-Bi2O3 photocatalyst by adding surfactant and its photocatalytic performance. Materials Research Express, 065902(2017).

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    [11] X WANG, J ZHANG, R WANG et al. Stable all-solid-state Z-scheme heterojunction Bi2O3-Co3O4@C microsphere photocatalysts for recalcitrant pollutant degradation. Journal of Alloys and Compounds, 168915(2023).

    [12] H YU, L JIANG, H WANG et al. Modulation of Bi2MoO6-based materials for photocatalytic water splitting and environmental application: a critical review. Small, 1901008(2019).

    [13] D WANG, H SHEN, L GUO et al. La and F co-doped Bi2MoO6 architectures with enhanced photocatalytic performance via synergistic effect. RSC Advances, 71052(2016).

    [14] K SUN, H ZHOU, X LI et al. The novel 2-dimensional Bi2MoO6- Bi2O3-Ag3PO4 ternary photocatalyst with n-n-p heterojunction for enhanced degradation performance. Journal of Alloys and Compounds, 165119(2022).

    [15] Q GAO, Z WANG, J LI et al. Facile synthesis of ternary dual Z-scheme g-C3N4/Bi2MoO6/CeO2 photocatalyst with enhanced 4-chlorophenol removal: degradation pathways and mechanism. Environmental Pollution, 120436(2022).

    [16] Y WU, M SONG, Z CHAI et al. Assembling Bi2MoO6/Ru/g-C3N4 for highly effective oxygen generation from water splitting under visible-light irradiation. Inorganic Chemistry, 7374(2019).

    [17] X XU, L MENG, Y DAI et al. Bi spheres SPR-coupled Cu2O/Bi2MoO6 with hollow spheres forming Z-scheme Cu2O/Bi/Bi2MoO6 heterostructure for simultaneous photocatalytic decontamination of sulfadiazine and Ni(II). Journal of Hazardous Materials, 120953(2020).

    [18] Y CHEN, G ZHU, M HOJAMBERDIEV et al. Three-dimensional Ag2O/Bi5O7I p-n heterojunction photocatalyst harnessing UV-Vis-NIR broad spectrum for photodegradation of organic pollutants. Journal of Hazardous Materials, 42(2018).

    [19] D MAJHI, P K SAMAL, K DAS et al. α-NiS/Bi2O3 nanocomposites for enhanced photocatalytic degradation of tramadol. ACS Applied Nano Materials, 395(2019).

    [20] Y LI, H WANG, L HUANG et al. Promoting LED light driven photocatalytic inactivation of bacteria by novel β-Bi2O3@BiOBr core/shell photocatalyst. Journal of Alloys and Compounds, 152665(2020).

    [21] J LI, X LIU, Z SUN et al. Novel Bi2MoO6/TiO2 heterostructure microspheres for degradation of benzene series compound under visible light irradiation. Journal of Colloid and Interface Science, 145(2016).

    [22] Y LIU, P LI, R XUE et al. Research on catalytic performance and mechanism of Ag2O/ZnO heterostructure under UV and visible light. Chemical Physics Letters, 137301(2020).

    [23] S J LI, C C WANG, Y P LIU et al. Photocatalytic degradation of tetracycline antibiotic by a novel Bi2Sn2O7/Bi2MoO6 S-scheme heterojunction: performance, mechanism insight and toxicity assessment. Chemical Engineering Journal, 132519(2022).

    [24] J J XU, C LIU, J F NIU et al. Preparation of In2S3 nanosheets decorated KNbO3 nanocubes composite photocatalysts with significantly enhanced activity under visible light irradiation. Separation and Purification Technology, 115861(2020).

    [25] Q XU, P ZHAO, Y K SHI et al. Preparation of a g-C3N4/Co3O4/ Ag2O ternary heterojunction nanocomposite and its photocatalytic activity and mechanism. New Journal of Chemistry, 6261(2020).

    [26] X R MENG, Y Z YANG, L P ZHANG et al. Preparation and visible light catalytic degradation of magnetically recyclable ZnFe2O4/BiOBr flower-like microspheres. Journal of Alloys and Compounds, 169981(2023).

    [27] A KUBIAK, Z BIELAN, M KUBACKA et al. Microwave- assisted synthesis of a TiO2-CuO heterojunction with enhanced photocatalytic activity against tetracycline. Applied Surface Science, 146344(2020).

    [28] Y HU, D Z CHEN, R ZHANG et al. Singlet oxygen-dominated activation of peroxymonosulfate by passion fruit shell derived biochar for catalytic degradation of tetracycline through a non-radical oxidation pathway. Journal of Hazardous Materials, 126495(2021).

    [29] F GUO, X L HUANG, Z H CHEN et al. Prominent co-catalytic effect of CoP nanoparticles anchored on high-crystalline g-C3N4 nanosheets for enhanced visible-light photocatalytic degradation of tetracycline in wastewater. Chemical Engineering Journal, 125118(2020).

    [30] X ZHANG, B REN, B M LIU et al. High-efficiency removal of tetracycline by carbon-bridge-doped g-C3N4/Fe3O4 magnetic heterogeneous catalyst through photo-Fenton process. Journal of Hazardous Materials, 126333(2021).

    [32] L LI, C GUO, J SHEN et al. Construction of sugar-gourd-shaped CdS/Co1-xS hollow hetero-nanostructure as an efficient Z-scheme photocatalyst for hydrogen generation. Chemical Engineering Journal, 125925(2020).

    [33] M L TANG, Y H AO, P F WANG et al. All-solid-state Z-scheme WO3 nanorod/ZnIn2S4 composite photocatalysts for the effective degradation of nitenpyram under visible light irradiation. Journal of Hazardous Materials, 121713(2020).

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    Maosen YE, Yao WANG, Bing XU, Kangkang WANG, Shengnan ZHANG, Jianqing FENG. II/Z-type Bi2MoO6/Ag2O/Bi2O3 Heterojunction for Photocatalytic Degradation of Tetracycline under Visible Light Irradiation [J]. Journal of Inorganic Materials, 2023, 39(3): 321
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