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W3129308399 endingPage "129010" @default.
W3129308399 startingPage "129010" @default.
W3129308399 abstract "A novel metal–organic framework (MOF)-derived rodlike AgCl/Ag/In2O3 plasmonic photocatalyst has been successfully prepared by electrostatic self-assembly, co-precipitation, in-situ photoreduction, and calcination. The photocatalytic activity of the samples was systematically investigated by photocatalytic tetracycline (TC) oxidation and Cr(VI) reduction under visible light irradiation. Among the as-prepared samples, AgCl/Ag/In2O3-2 displayed the most effective photocatalytic activity. For photocatalytic TC oxidation, the apparent rate constant of AgCl/Ag/In2O3-2 was 0.5036 min−1, which was 2.7, 6.5, and 1.8 times higher than that of In2O3 (0.1845 min−1), AgCl/In2O3 (0.1544 min−1) and Ag/In2O3 (0.2850 min−1), respectively. In addition, AgCl/Ag/In2O3-2 also exhibited the highest activity for photocatalytic Cr(VI) reduction, and the photocatalytic Cr(VI) reduction rate of AgCl/Ag/In2O3-2 in 3hrs could reach 94.8%. The superior photocatalytic activity was due to the enhanced absorption in the visible light region caused by localized surface plasmon resonance (LSPR) and the efficient interfacial charge migration and separation in AgCl/Ag/In2O3 samples. Moreover, the intermediates formed in the photocatalytic TC oxidation were identified by GC–MS. Finally, a series of characterizations and simulations (density functional theory, cambridge serial total energy package, and finite difference time domain) were carried out to demonstrate the plasmonic Z-scheme photocatalytic mechanism." @default.
W3129308399 created "2021-03-01" @default.
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W3129308399 date "2021-07-01" @default.
W3129308399 modified "2023-10-14" @default.
W3129308399 title "Metal-organic framework-derived rodlike AgCl/Ag/In2O3: A plasmonic Z-scheme visible light photocatalyst" @default.
W3129308399 cites W1968738106 @default.
W3129308399 cites W1969934715 @default.
W3129308399 cites W1973357647 @default.
W3129308399 cites W1973914061 @default.
W3129308399 cites W1978104816 @default.
W3129308399 cites W1983402744 @default.
W3129308399 cites W1988344856 @default.
W3129308399 cites W1995517450 @default.
W3129308399 cites W2004160113 @default.
W3129308399 cites W2019329036 @default.
W3129308399 cites W2027541855 @default.
W3129308399 cites W2035462296 @default.
W3129308399 cites W2040609875 @default.
W3129308399 cites W2054627728 @default.
W3129308399 cites W2063216037 @default.
W3129308399 cites W2065611195 @default.
W3129308399 cites W2076092026 @default.
W3129308399 cites W2079807007 @default.
W3129308399 cites W2110011811 @default.
W3129308399 cites W2130388373 @default.
W3129308399 cites W2130626389 @default.
W3129308399 cites W2141720765 @default.
W3129308399 cites W2171547878 @default.
W3129308399 cites W2194750746 @default.
W3129308399 cites W2317415045 @default.
W3129308399 cites W2318076649 @default.
W3129308399 cites W2318339876 @default.
W3129308399 cites W2325112411 @default.
W3129308399 cites W2343502878 @default.
W3129308399 cites W2411305283 @default.
W3129308399 cites W2432393065 @default.
W3129308399 cites W2436019163 @default.
W3129308399 cites W2508820232 @default.
W3129308399 cites W2517067928 @default.
W3129308399 cites W2524867695 @default.
W3129308399 cites W2577076178 @default.
W3129308399 cites W2589533669 @default.
W3129308399 cites W2604829804 @default.
W3129308399 cites W2604944739 @default.
W3129308399 cites W2605108827 @default.
W3129308399 cites W2608922277 @default.
W3129308399 cites W2617135749 @default.
W3129308399 cites W2762424590 @default.
W3129308399 cites W2777155227 @default.
W3129308399 cites W2790938549 @default.
W3129308399 cites W2803729797 @default.
W3129308399 cites W2804696218 @default.
W3129308399 cites W2804833866 @default.
W3129308399 cites W2884534018 @default.
W3129308399 cites W2886522322 @default.
W3129308399 cites W2887288503 @default.
W3129308399 cites W2887398668 @default.
W3129308399 cites W2898215918 @default.
W3129308399 cites W2906274265 @default.
W3129308399 cites W2908324562 @default.
W3129308399 cites W2911660553 @default.
W3129308399 cites W2912368126 @default.
W3129308399 cites W2913379862 @default.
W3129308399 cites W2916299504 @default.
W3129308399 cites W2937040881 @default.
W3129308399 cites W2951130899 @default.
W3129308399 cites W2960616401 @default.
W3129308399 cites W2964732667 @default.
W3129308399 cites W2970901687 @default.
W3129308399 cites W2971563866 @default.
W3129308399 cites W2973067810 @default.
W3129308399 cites W2985675606 @default.
W3129308399 cites W2986980342 @default.
W3129308399 cites W2988661379 @default.
W3129308399 cites W2989167312 @default.
W3129308399 cites W2992164842 @default.
W3129308399 cites W2995661323 @default.
W3129308399 cites W3006180800 @default.
W3129308399 cites W3010762397 @default.
W3129308399 cites W3093260176 @default.
W3129308399 doi "https://doi.org/10.1016/j.cej.2021.129010" @default.
W3129308399 hasPublicationYear "2021" @default.
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