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W4308395449 endingPage "137180" @default.
W4308395449 startingPage "137180" @default.
W4308395449 abstract "Novel Ag3VO4/KIT-6 nanocomposite photocatalyst has been successfully fabricated by a newly-designed simple hard-template induction process, in which the particles of Ag3VO4 were grown on the KIT-6 surface and inside the porous framework of the silica matrix. The developed porous framework nanocomposite was characterized by several techniques including N2-Physiosorption analysis. The obtained nanocomposite revealed a high surface area (273.86 m2/g) along with the possession of monoclinic Ag3VO4, which is highly responsive to visible light (with distinct intensity at about 700 nm). The UV–Vis DRS reveals that the Ag3VO4/KIT-6 photocatalyst bears a bandgap of 2.29 eV which confirms that the material has a good visible light response. The synthesized nanocomposite was tested for its superior physicochemical properties by evaluating its degradation efficiency for Congo Red (CR). The novel composite exhibited superior degradation capability of CR, reaching up to 96.49%, which was around three times the pure Ag3VO4. The detailed kinetic study revealed that the as-prepared material followed a pseudo first order kinetic model for the CR degradation. The study includes a comprehensive parametric study for the formulation of the optimized reaction conditions for photocatalytic reactions. The commercial applicability of the composite material was investigated by a regeneration and recyclability test, which revealed extraordinary results. Furthermore, the possible degradation pathway for CR was also proposed." @default.
W4308395449 created "2022-11-11" @default.
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W4308395449 date "2023-01-01" @default.
W4308395449 modified "2023-10-18" @default.
W4308395449 title "Porous Ag3VO4/KIT-6 composite: Synthesis, characterization and enhanced photocatalytic performance for degradation of Congo Red" @default.
W4308395449 cites W1926992496 @default.
W4308395449 cites W1990496894 @default.
W4308395449 cites W2002006840 @default.
W4308395449 cites W2015362500 @default.
W4308395449 cites W2019064913 @default.
W4308395449 cites W2034456534 @default.
W4308395449 cites W2041984695 @default.
W4308395449 cites W2065075410 @default.
W4308395449 cites W2069374461 @default.
W4308395449 cites W2073337807 @default.
W4308395449 cites W2076061177 @default.
W4308395449 cites W2076685759 @default.
W4308395449 cites W2082308502 @default.
W4308395449 cites W2093475176 @default.
W4308395449 cites W2118302325 @default.
W4308395449 cites W2134401767 @default.
W4308395449 cites W2163892617 @default.
W4308395449 cites W2169407189 @default.
W4308395449 cites W2204904683 @default.
W4308395449 cites W2292154851 @default.
W4308395449 cites W2377396519 @default.
W4308395449 cites W2385195993 @default.
W4308395449 cites W2463967757 @default.
W4308395449 cites W2553831195 @default.
W4308395449 cites W2564900771 @default.
W4308395449 cites W2611064600 @default.
W4308395449 cites W2614074649 @default.
W4308395449 cites W2614508544 @default.
W4308395449 cites W2623662340 @default.
W4308395449 cites W2731953284 @default.
W4308395449 cites W2774362556 @default.
W4308395449 cites W2789851261 @default.
W4308395449 cites W2792268910 @default.
W4308395449 cites W2795045392 @default.
W4308395449 cites W2807394621 @default.
W4308395449 cites W2807487659 @default.
W4308395449 cites W2883422137 @default.
W4308395449 cites W2886903371 @default.
W4308395449 cites W2896107350 @default.
W4308395449 cites W2901191235 @default.
W4308395449 cites W2902399483 @default.
W4308395449 cites W2907641242 @default.
W4308395449 cites W2910856796 @default.
W4308395449 cites W2913379862 @default.
W4308395449 cites W2941713282 @default.
W4308395449 cites W2943042940 @default.
W4308395449 cites W2943752639 @default.
W4308395449 cites W2955142741 @default.
W4308395449 cites W2955782983 @default.
W4308395449 cites W2972877829 @default.
W4308395449 cites W2975751607 @default.
W4308395449 cites W2982034684 @default.
W4308395449 cites W2983120320 @default.
W4308395449 cites W2988488274 @default.
W4308395449 cites W2990043294 @default.
W4308395449 cites W2998666321 @default.
W4308395449 cites W2999185232 @default.
W4308395449 cites W2999563988 @default.
W4308395449 cites W2999859679 @default.
W4308395449 cites W3000397198 @default.
W4308395449 cites W3002121398 @default.
W4308395449 cites W3009626787 @default.
W4308395449 cites W3022535236 @default.
W4308395449 cites W3024083423 @default.
W4308395449 cites W3035340531 @default.
W4308395449 cites W3037365425 @default.
W4308395449 cites W3037955414 @default.
W4308395449 cites W3092343530 @default.
W4308395449 cites W3094480993 @default.
W4308395449 cites W3098082877 @default.
W4308395449 cites W3116218395 @default.
W4308395449 cites W3119551273 @default.
W4308395449 cites W3122132581 @default.
W4308395449 cites W3132079298 @default.
W4308395449 cites W3140083031 @default.
W4308395449 cites W3153162571 @default.
W4308395449 cites W3169976654 @default.
W4308395449 cites W3205145166 @default.
W4308395449 cites W3208245304 @default.
W4308395449 cites W4221088916 @default.
W4308395449 doi "https://doi.org/10.1016/j.chemosphere.2022.137180" @default.