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W4327750548 endingPage "110589" @default.
W4327750548 startingPage "110589" @default.
W4327750548 abstract "Here we report, the synthesis of a novel Fe doped MoS2/BiVO4 ([email protected]2/BiVO4) magnetic heterostructure composites by sonication-assisted hydrothermal method. The as-prepared composites were characterized by XRD, SEM, EDX, FTIR, XPS, BET, PL, and EPR techniques for crystal structures, morphology, surficial chemical properties, photocatalysis and antimicrobial properties. For photocatalysis, [email protected]2/BiVO4 p-n heterojunction was applied against methylene blue dye in the visible light range and superior degradation was achieved. The photocatalytic degradation and involved mechanism were also confirmed by the scavenger and total organic test (TOC). The incorporation of composite materials was realized to reduce the bandgap energy and this reduction may facilitate the ability to absorb more energy in the visible light spectrum. The enhanced photocatalytic activity of [email protected]2/BiVO4 could be attributed to a large carrier lifetime, appropriate energy bandgap that is built in by p-n heterojunction of MoS2 and BiVO4 inhibited the recombination of charge-carriers owed to the synergistic effect of [email protected]2/BiVO4. The antimicrobial investigation of 1 wt% [email protected]2/BiVO4 was studied against Escherichia coli (E. coli), and it exhibited well antimicrobial response. Based on these findings, the photocatalytic mechanism, the p-n junction formation mechanism of Fe-doped MoS2/BiVO4, and possible antimicrobial mechanisms are proposed." @default.
W4327750548 created "2023-03-18" @default.
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W4327750548 date "2023-05-01" @default.
W4327750548 modified "2023-10-16" @default.
W4327750548 title "Synthesis of novel Fe doped MoS2/BiVO4 magnetic composite for enhanced photocatalytic and antimicrobial activity" @default.
W4327750548 cites W1459186869 @default.
W4327750548 cites W1777002275 @default.
W4327750548 cites W1970899472 @default.
W4327750548 cites W1996061762 @default.
W4327750548 cites W2015884448 @default.
W4327750548 cites W2019253011 @default.
W4327750548 cites W2044544212 @default.
W4327750548 cites W2053518689 @default.
W4327750548 cites W2070785297 @default.
W4327750548 cites W2102574061 @default.
W4327750548 cites W2115632503 @default.
W4327750548 cites W2242773767 @default.
W4327750548 cites W2262556826 @default.
W4327750548 cites W2296646251 @default.
W4327750548 cites W2313805783 @default.
W4327750548 cites W2322420696 @default.
W4327750548 cites W2338360934 @default.
W4327750548 cites W2406754716 @default.
W4327750548 cites W2463610922 @default.
W4327750548 cites W2469717910 @default.
W4327750548 cites W2518791446 @default.
W4327750548 cites W2564895030 @default.
W4327750548 cites W2589093005 @default.
W4327750548 cites W2612825115 @default.
W4327750548 cites W2756062102 @default.
W4327750548 cites W2768080672 @default.
W4327750548 cites W2809629765 @default.
W4327750548 cites W2811387214 @default.
W4327750548 cites W2884294574 @default.
W4327750548 cites W2886484735 @default.
W4327750548 cites W2896448013 @default.
W4327750548 cites W2897853091 @default.
W4327750548 cites W2897923800 @default.
W4327750548 cites W2899593933 @default.
W4327750548 cites W2920581951 @default.
W4327750548 cites W2928475502 @default.
W4327750548 cites W2942927572 @default.
W4327750548 cites W2943160407 @default.
W4327750548 cites W2945151624 @default.
W4327750548 cites W2945902962 @default.
W4327750548 cites W2949783472 @default.
W4327750548 cites W2954344449 @default.
W4327750548 cites W2968948059 @default.
W4327750548 cites W2971987902 @default.
W4327750548 cites W2979979826 @default.
W4327750548 cites W2981770586 @default.
W4327750548 cites W2982313351 @default.
W4327750548 cites W2982500221 @default.
W4327750548 cites W2984039394 @default.
W4327750548 cites W3008980715 @default.
W4327750548 cites W3014539078 @default.
W4327750548 cites W3015179088 @default.
W4327750548 cites W3033618999 @default.
W4327750548 cites W3046942172 @default.
W4327750548 cites W3073470552 @default.
W4327750548 cites W3080916275 @default.
W4327750548 cites W3088957440 @default.
W4327750548 cites W3093991291 @default.
W4327750548 cites W3097142891 @default.
W4327750548 cites W3107549630 @default.
W4327750548 cites W3107788711 @default.
W4327750548 cites W3112977412 @default.
W4327750548 cites W3120824551 @default.
W4327750548 cites W3122103582 @default.
W4327750548 cites W3126607500 @default.
W4327750548 cites W3127211999 @default.
W4327750548 cites W3135646043 @default.
W4327750548 cites W3136296624 @default.
W4327750548 cites W3138001954 @default.
W4327750548 cites W3158173456 @default.
W4327750548 cites W3162262880 @default.
W4327750548 cites W3174032583 @default.
W4327750548 cites W3183191795 @default.
W4327750548 cites W3193941332 @default.
W4327750548 cites W3194804055 @default.
W4327750548 cites W3199169815 @default.
W4327750548 cites W3211835271 @default.
W4327750548 cites W4292367245 @default.
W4327750548 cites W4297215905 @default.
W4327750548 doi "https://doi.org/10.1016/j.inoche.2023.110589" @default.
W4327750548 hasPublicationYear "2023" @default.
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