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W4294903974 endingPage "130116" @default.
W4294903974 startingPage "130116" @default.
W4294903974 abstract "Constructing the Bi3.64Mo0.36O6.55/MIL-88A(Fe) photo-Fenton degradation system with the in situ growth of Bi3.64Mo0.36O6.55 nanoparticles onto monomer MIL-88A(Fe). The composite was applied as the photocatalyst for removing tetracycline hydrochloride (TCH). The degradation rate reaches 84.48% within 30 min under visible light and the presence of H2O2, which is 1.67 times faster than that of monomer MIL-88A(Fe). The effects of pollution concentration, the consistence of H2O2, pH value and catalyst dosage of photo-degradation were explored over this process. After four cycling, Bi3.64Mo0.36O6.55/MIL-88A(Fe) exhibited excellent photocatalytic property. The catalyst also exists selectivity to Rhodamine B and methyl orange. The special layered structure of Bi3.64Mo0.36O6.55/MIL-88A(Fe) composites can effectively promote photogenerated charge transfer and accelerate the Fe3+/Fe2+ cycling effect, which was performed by electrochemical impedance spectroscopy (EIS). Furthermore, free radical capture experiment and electron spin resonance (ESR) analysis showed that •OH, h+ and •O2– showed master roles in removal of tetracycline hydrochloride. Suitable energy band structure produced more photogenerated electrons, which could promote the Fe3+/Fe2+ transformation and accelerate the system degradation of TCH. This study has provided a novel method to construct the significant potential of the Bi3.64Mo0.36O6.55/MIL-88A(Fe) photo-Fenton system in the degradation of pollutants." @default.
W4294903974 created "2022-09-07" @default.
W4294903974 creator A5001956978 @default.
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W4294903974 creator A5091561549 @default.
W4294903974 date "2022-12-01" @default.
W4294903974 modified "2023-10-13" @default.
W4294903974 title "A novel Bi3.64Mo0.36O6.55/MIL-88A(Fe) nanorod composite material for enhancing photocatalytic activity in photo-Fenton system" @default.
W4294903974 cites W1163021154 @default.
W4294903974 cites W1795581440 @default.
W4294903974 cites W1928434648 @default.
W4294903974 cites W1994301903 @default.
W4294903974 cites W2018074836 @default.
W4294903974 cites W2075642557 @default.
W4294903974 cites W2083160723 @default.
W4294903974 cites W2217223493 @default.
W4294903974 cites W2285188785 @default.
W4294903974 cites W2323183380 @default.
W4294903974 cites W2337149114 @default.
W4294903974 cites W2394970542 @default.
W4294903974 cites W2413141301 @default.
W4294903974 cites W2519269388 @default.
W4294903974 cites W2551371417 @default.
W4294903974 cites W2600749984 @default.
W4294903974 cites W2608506403 @default.
W4294903974 cites W2617122582 @default.
W4294903974 cites W2625165825 @default.
W4294903974 cites W2752326198 @default.
W4294903974 cites W2752697650 @default.
W4294903974 cites W2761411938 @default.
W4294903974 cites W2765281275 @default.
W4294903974 cites W2785773810 @default.
W4294903974 cites W2790057497 @default.
W4294903974 cites W2792756418 @default.
W4294903974 cites W2796190831 @default.
W4294903974 cites W2799483626 @default.
W4294903974 cites W2804833866 @default.
W4294903974 cites W2843134934 @default.
W4294903974 cites W2866776206 @default.
W4294903974 cites W2884880427 @default.
W4294903974 cites W2885432979 @default.
W4294903974 cites W2891841489 @default.
W4294903974 cites W2892338298 @default.
W4294903974 cites W2901181617 @default.
W4294903974 cites W2906521013 @default.
W4294903974 cites W2907263220 @default.
W4294903974 cites W2913090254 @default.
W4294903974 cites W2916226189 @default.
W4294903974 cites W2920867238 @default.
W4294903974 cites W2921853006 @default.
W4294903974 cites W2922211844 @default.
W4294903974 cites W2924821390 @default.
W4294903974 cites W2927052818 @default.
W4294903974 cites W2936564406 @default.
W4294903974 cites W2937712726 @default.
W4294903974 cites W2942124086 @default.
W4294903974 cites W2944731898 @default.
W4294903974 cites W2946269867 @default.
W4294903974 cites W2957581642 @default.
W4294903974 cites W2964809824 @default.
W4294903974 cites W2964934686 @default.
W4294903974 cites W2999499011 @default.
W4294903974 cites W3000659766 @default.
W4294903974 cites W3015004482 @default.
W4294903974 cites W3018463907 @default.
W4294903974 cites W3018976277 @default.
W4294903974 cites W3022871164 @default.
W4294903974 cites W3026638249 @default.
W4294903974 cites W3033135922 @default.
W4294903974 cites W3035520085 @default.
W4294903974 cites W3042480149 @default.
W4294903974 cites W3047663495 @default.
W4294903974 cites W3118563279 @default.
W4294903974 cites W3120808013 @default.
W4294903974 cites W3121017360 @default.
W4294903974 cites W3141996106 @default.
W4294903974 cites W3177287250 @default.
W4294903974 cites W3186818201 @default.
W4294903974 cites W3190046182 @default.
W4294903974 cites W3199523814 @default.
W4294903974 cites W4213417234 @default.
W4294903974 cites W4221042124 @default.
W4294903974 cites W4223974595 @default.
W4294903974 cites W4224254384 @default.
W4294903974 cites W4280594779 @default.
W4294903974 cites W4292830236 @default.
W4294903974 doi "https://doi.org/10.1016/j.colsurfa.2022.130116" @default.
W4294903974 hasPublicationYear "2022" @default.
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