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W3189759462 startingPage "100480" @default.
W3189759462 abstract "Highly efficient recyclable photocatalysts of ternary g-C 3 N 4 -ZnO/Cu 2 O nanocomposite were designed for photo-degradation of RhB dye. The structural, morphological, surface structure and optical properties of the as-prepared nanocomposites (NCs) were characterized by XRD, FT-IR, FE-SEM with EDS, HRTEM, XPS, BET, UV–Vis DRS and PL spectra analysis respectively. The photo-degradation efficiencies of RhB dye over the g-C 3 N 4 , g-C 3 N 4 /ZnO, g-C 3 N 4 /Cu 2 O and g-C 3 N 4 -ZnO/Cu 2 O photocatalysts (PCs) were 36.4%, 53% and 66%, and 91.4% in 100 min under visible-light. The as-obtained g-C 3 N 4 -ZnO/Cu 2 O PCs was remarkably upgraded the photo-degradation efficiency rate than to other samples. Also, the heterojunction formation among the g-C 3 N 4 and ZnO/Cu 2 O interfaces due to the development of visible-light absorption capability and photo-excited charge separation efficiency which was improved the photocatalytic performance. Besides, the g-C 3 N 4 -ZnO/Cu 2 O PCs exhibit a greater photo-degradation performance after five successive reuses. Hence, the eco-friendly PCs might be widely useful for the application of dye polluted wastewater treatment. • g-C 3 N 4 /ZnO/Cu 2 O composite was effectively fabricated by hydrothermal preparation way. • Catalyst exhibits excellent RhB dye degradation due to high visible-light absorption. • Effective charge transfer/separation efficiency and restrain the recombination rate. • The g-C 3 N 4 /ZnO/Cu 2 O catalyst display excellent reusability for practical application. • Photocatalytic mechanism and charge transfer pathway were elucidated systemically." @default.
W3189759462 created "2021-08-16" @default.
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W3189759462 date "2021-09-01" @default.
W3189759462 modified "2023-10-16" @default.
W3189759462 title "Investigation on novel Cu2O modified g-C3N4/ZnO heterostructures for efficient photocatalytic dye degradation performance under visible-light exposure" @default.
W3189759462 cites W1967410007 @default.
W3189759462 cites W2037328216 @default.
W3189759462 cites W2064377828 @default.
W3189759462 cites W2253772638 @default.
W3189759462 cites W2263322691 @default.
W3189759462 cites W226450056 @default.
W3189759462 cites W2280219179 @default.
W3189759462 cites W2341076442 @default.
W3189759462 cites W2342479426 @default.
W3189759462 cites W2401906193 @default.
W3189759462 cites W2408716164 @default.
W3189759462 cites W2411965484 @default.
W3189759462 cites W2412058148 @default.
W3189759462 cites W2463198296 @default.
W3189759462 cites W2512711848 @default.
W3189759462 cites W2523499959 @default.
W3189759462 cites W2538133286 @default.
W3189759462 cites W2548554817 @default.
W3189759462 cites W2562143466 @default.
W3189759462 cites W2571028872 @default.
W3189759462 cites W2581816435 @default.
W3189759462 cites W2588577135 @default.
W3189759462 cites W2593531213 @default.
W3189759462 cites W2612042308 @default.
W3189759462 cites W2615991899 @default.
W3189759462 cites W2619422439 @default.
W3189759462 cites W2620682549 @default.
W3189759462 cites W2726580720 @default.
W3189759462 cites W2736370510 @default.
W3189759462 cites W2741209207 @default.
W3189759462 cites W2741349270 @default.
W3189759462 cites W2753053643 @default.
W3189759462 cites W2763319196 @default.
W3189759462 cites W2767304992 @default.
W3189759462 cites W2767916860 @default.
W3189759462 cites W2769922566 @default.
W3189759462 cites W2774460189 @default.
W3189759462 cites W278992727 @default.
W3189759462 cites W2791374817 @default.
W3189759462 cites W2791801306 @default.
W3189759462 cites W2797816573 @default.
W3189759462 cites W2800803999 @default.
W3189759462 cites W2800896489 @default.
W3189759462 cites W2804330912 @default.
W3189759462 cites W2806537163 @default.
W3189759462 cites W2806978114 @default.
W3189759462 cites W2809016592 @default.
W3189759462 cites W2811167402 @default.
W3189759462 cites W2885274864 @default.
W3189759462 cites W2886573166 @default.
W3189759462 cites W2888613414 @default.
W3189759462 cites W2893209852 @default.
W3189759462 cites W2897701444 @default.
W3189759462 cites W2898630837 @default.
W3189759462 cites W2901609604 @default.
W3189759462 cites W2901780293 @default.
W3189759462 cites W2905038501 @default.
W3189759462 cites W2906479724 @default.
W3189759462 cites W2907867267 @default.
W3189759462 cites W2911494228 @default.
W3189759462 cites W2912188752 @default.
W3189759462 cites W2929893015 @default.
W3189759462 cites W2942909499 @default.
W3189759462 cites W2947912140 @default.
W3189759462 cites W2955272203 @default.
W3189759462 cites W2960073343 @default.
W3189759462 cites W2977969543 @default.
W3189759462 cites W2988066862 @default.
W3189759462 cites W2997479134 @default.
W3189759462 cites W2999437892 @default.
W3189759462 cites W3002080239 @default.
W3189759462 cites W3013806377 @default.
W3189759462 cites W3040707619 @default.
W3189759462 cites W3048257460 @default.
W3189759462 cites W3128895309 @default.
W3189759462 cites W871523067 @default.
W3189759462 doi "https://doi.org/10.1016/j.colcom.2021.100480" @default.
W3189759462 hasPublicationYear "2021" @default.
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