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W2915165342 abstract "The MgO-loaded SiO2 nanocomposites were successfully synthesized via a facile precipitation and calcination method, and used for the elimination of antibiotics from aqueous solution. Multiple techniques such as X-ray photoelectron spectroscopy (XPS), fourier transform infrared (FT-IR), transmission electron microscope (TEM), X-ray diffraction (XRD) and Brunauer-Emmett-Teller (BET) were employed to characterize the structure and morphology of the obtained nanocomposites. The effects of the loading content of MgO, initial solution pH and temperature on the adsorption performance of MgO-loaded SiO2 nanocomposites were assessed by removing tetracycline from aqueous solution. It was found that 50% MgO-loaded SiO2 exhibited excellent adsorption performance towards tetracycline with a removal rate above 80% in a wide pH range of 4–10, which was much higher than that of individual MgO and mesoporous SiO2. The nanocomposite possessed higher specific surface area (356.02 m2 g−1) and smaller MgO particles compared with pure MgO (81.02 m2 g−1), which can provide more active sites, thus enhancing the adsorption performance towards tetracycline. The electrostatic interaction and inner-sphere complexation between nanocomposites and tetracycline molecules were considered to play important roles in the adsorption process of tetracycline. The as-synthesized nanocomposites as promising adsorbents have a potential application in the removal of antibiotics from aqueous solution." @default.
W2915165342 created "2019-03-02" @default.
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W2915165342 date "2019-04-01" @default.
W2915165342 modified "2023-10-16" @default.
W2915165342 title "Facile preparation of MgO-loaded SiO2 nanocomposites for tetracycline removal from aqueous solution" @default.
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W2915165342 cites W1978345894 @default.
W2915165342 cites W1979956485 @default.
W2915165342 cites W1980668932 @default.
W2915165342 cites W1984371138 @default.
W2915165342 cites W1989813626 @default.
W2915165342 cites W1996537213 @default.
W2915165342 cites W2001223063 @default.
W2915165342 cites W2003357447 @default.
W2915165342 cites W2005508279 @default.
W2915165342 cites W2006182755 @default.
W2915165342 cites W2012233830 @default.
W2915165342 cites W2017463626 @default.
W2915165342 cites W2019880372 @default.
W2915165342 cites W2021380728 @default.
W2915165342 cites W2023958467 @default.
W2915165342 cites W2034142406 @default.
W2915165342 cites W2043048846 @default.
W2915165342 cites W2043864255 @default.
W2915165342 cites W2045515260 @default.
W2915165342 cites W2051036161 @default.
W2915165342 cites W2056728817 @default.
W2915165342 cites W2061399524 @default.
W2915165342 cites W2065637791 @default.
W2915165342 cites W2076417036 @default.
W2915165342 cites W2077335188 @default.
W2915165342 cites W2079750892 @default.
W2915165342 cites W2083177670 @default.
W2915165342 cites W2088152516 @default.
W2915165342 cites W2088345626 @default.
W2915165342 cites W2100026459 @default.
W2915165342 cites W2192363886 @default.
W2915165342 cites W2218678412 @default.
W2915165342 cites W2287084906 @default.
W2915165342 cites W2325734402 @default.
W2915165342 cites W2331212077 @default.
W2915165342 cites W2331900986 @default.
W2915165342 cites W2395182107 @default.
W2915165342 cites W2468801809 @default.
W2915165342 cites W2530013182 @default.
W2915165342 cites W2542808604 @default.
W2915165342 cites W2563762063 @default.
W2915165342 cites W2570617356 @default.
W2915165342 cites W2596252885 @default.
W2915165342 cites W2750685091 @default.
W2915165342 cites W2751541715 @default.
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W2915165342 cites W2794376292 @default.
W2915165342 cites W2800492001 @default.
W2915165342 cites W2884579809 @default.
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W2915165342 doi "https://doi.org/10.1016/j.powtec.2019.02.034" @default.
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