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W4283207130 endingPage "114103" @default.
W4283207130 startingPage "114103" @default.
W4283207130 abstract "This study reports the development of a new catalyst through green synthesis using Nb 2 O 5 and sugarcane bagasse. The Nb 2 O 5 semiconductor was immobilized in sugarcane bagasse with and without alkalis treatment and was further applied as a catalyst in the photocatalytic degradation of reactive black 5 dye. The obtained material was characterized by Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), Ultraviolet–visible (UV–vis) diffuse reflectance spectra (DRS), field emission scanning electron microscopy (FESEM-EDS), and surface loads. The results indicated that the semiconductor was successfully immobilized in the biomass. The photocatalytic activity was carried out at pH around 5.8–6.2 at 25 °C using a LED lamp in the ultraviolet region (50 W, 375–380 nm). The high photoactivity of sugarcane-Nb 2 O 5 without alkalis treatment was obtained, presenting a degradation range over 65% in 60 min. The contribution of photolysis, UV/H 2 O 2, and adsorption for RB5 removal was lesser than 10% showing photocatalysis as the main mechanism of degradation. The sugarcane-Nb 2 O 5 characteristics make it a promising sustainable catalyst." @default.
W4283207130 created "2022-06-22" @default.
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W4283207130 date "2022-11-01" @default.
W4283207130 modified "2023-10-14" @default.
W4283207130 title "Photocatalytic oxidation of textile dye using sugarcane bagasse-Nb2O5 as a catalyst" @default.
W4283207130 cites W1214541855 @default.
W4283207130 cites W1965105638 @default.
W4283207130 cites W1975411523 @default.
W4283207130 cites W1977061770 @default.
W4283207130 cites W1994948464 @default.
W4283207130 cites W1995220465 @default.
W4283207130 cites W1995646472 @default.
W4283207130 cites W1996438954 @default.
W4283207130 cites W1999136764 @default.
W4283207130 cites W2007494448 @default.
W4283207130 cites W2014947190 @default.
W4283207130 cites W2017754325 @default.
W4283207130 cites W2020699033 @default.
W4283207130 cites W2021626309 @default.
W4283207130 cites W2023872796 @default.
W4283207130 cites W2027529266 @default.
W4283207130 cites W2042492216 @default.
W4283207130 cites W2042681075 @default.
W4283207130 cites W2044250203 @default.
W4283207130 cites W2061965145 @default.
W4283207130 cites W2080042828 @default.
W4283207130 cites W2084652765 @default.
W4283207130 cites W2086150366 @default.
W4283207130 cites W2092042602 @default.
W4283207130 cites W2094973605 @default.
W4283207130 cites W2095497565 @default.
W4283207130 cites W2106077371 @default.
W4283207130 cites W2131491403 @default.
W4283207130 cites W2135348645 @default.
W4283207130 cites W2138405719 @default.
W4283207130 cites W2219484304 @default.
W4283207130 cites W2278530695 @default.
W4283207130 cites W2343405345 @default.
W4283207130 cites W2370766887 @default.
W4283207130 cites W2605983687 @default.
W4283207130 cites W2609035614 @default.
W4283207130 cites W2617114334 @default.
W4283207130 cites W2620890096 @default.
W4283207130 cites W2638338441 @default.
W4283207130 cites W2741543642 @default.
W4283207130 cites W2761942751 @default.
W4283207130 cites W2764185523 @default.
W4283207130 cites W2769242387 @default.
W4283207130 cites W2778659796 @default.
W4283207130 cites W2793411922 @default.
W4283207130 cites W2890126830 @default.
W4283207130 cites W2901997077 @default.
W4283207130 cites W2952160426 @default.
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W4283207130 cites W2976071467 @default.
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W4283207130 cites W3194112004 @default.
W4283207130 cites W3194304626 @default.
W4283207130 cites W3195494910 @default.
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W4283207130 doi "https://doi.org/10.1016/j.jphotochem.2022.114103" @default.
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