SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3211111915> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W3211111915 endingPage "103530" @default.
W3211111915 startingPage "103530" @default.
W3211111915 abstract "The novel mesoporous TiO2/BMMs nanocomposites using bimodal mesoporous silica (BMMs) as support and rutile-anatase mixed phase as active species were successfully synthesized via hydrothermal and subsequent calcination method. Their structural and physiochemical properties were characterized by X-ray diffraction, scanning/transmission electron microscopy, BET-isotherms, inductive coupled plasma optical emission spectroscopy, zeta potential, Fourier transform infrared and UV–visible spectroscopy. The results demonstrated that the photocatalytic degradation activity of the synthesized catalysts were extensively enhanced as compare to bare TiO2, due to the highly uniform dispersion of mixed phases (Anatase and Rutile) TiO2 on the bimodal mesoporous surfaces. Particularly, the catalytic efficiency became increased as increasing the calcination temperature, showing the highest (98%) overall removal of CV dye using TBH5d as catalyst calcinated at 800 °C. Its most interesting finding is that the % adsorption of TBH5d was 46 %, more than that (26%) of TBH5c calcinated at 600 ℃, however, its % degradation was 21 %, lower than that (39 %) of TBH5c for dye concentration of 20 ppm in 50 min. Meanwhile, the kinetic adsorption and degradation performances were followed the pseudo second and first order models, respectively, further proving the high degradation efficiency of TBH5c with high rate constant than that of TBH5d. Thermodynamic parameters (ΔGads, ΔHads, and ΔSads) were calculated, suggesting the spontaneous and exothermic procedure with high entropy, while the adsorption equilibrium data was fitted to Dubinin-Radushkevich model. Both TBH5c and TBH5d showed an excellent stability and reactivity 71.2 and 61 %, respectively, even after 5th cycles. Thus, these results suggested that that TBH5c may be one of the suitable candidates in wastewater treatments." @default.
W3211111915 created "2021-11-08" @default.
W3211111915 creator A5017960750 @default.
W3211111915 creator A5054866942 @default.
W3211111915 creator A5055006132 @default.
W3211111915 creator A5078097989 @default.
W3211111915 creator A5082888540 @default.
W3211111915 date "2022-01-01" @default.
W3211111915 modified "2023-09-26" @default.
W3211111915 title "Synthesis of mesoporous TiO2/BMMs via hydrothermal method and its potential application toward adsorption and photocatalytic degradation of crystal violet from aqueous solution" @default.
W3211111915 cites W113799098 @default.
W3211111915 cites W1969111467 @default.
W3211111915 cites W1969587715 @default.
W3211111915 cites W1971017103 @default.
W3211111915 cites W1974526962 @default.
W3211111915 cites W1977221197 @default.
W3211111915 cites W1977405643 @default.
W3211111915 cites W1985053280 @default.
W3211111915 cites W1997260291 @default.
W3211111915 cites W2004435885 @default.
W3211111915 cites W2005541460 @default.
W3211111915 cites W2005838762 @default.
W3211111915 cites W2006479467 @default.
W3211111915 cites W2006481196 @default.
W3211111915 cites W2007394078 @default.
W3211111915 cites W2008123727 @default.
W3211111915 cites W2016455847 @default.
W3211111915 cites W2024055584 @default.
W3211111915 cites W2026939838 @default.
W3211111915 cites W2029028764 @default.
W3211111915 cites W2035556653 @default.
W3211111915 cites W2035746317 @default.
W3211111915 cites W2036729574 @default.
W3211111915 cites W2036740046 @default.
W3211111915 cites W2041135967 @default.
W3211111915 cites W2047743437 @default.
W3211111915 cites W2051676925 @default.
W3211111915 cites W2061601057 @default.
W3211111915 cites W2065073523 @default.
W3211111915 cites W2068037839 @default.
W3211111915 cites W2078965142 @default.
W3211111915 cites W2085962882 @default.
W3211111915 cites W2091633783 @default.
W3211111915 cites W2092613756 @default.
W3211111915 cites W2112379213 @default.
W3211111915 cites W2136870809 @default.
W3211111915 cites W2192820615 @default.
W3211111915 cites W2314104404 @default.
W3211111915 cites W2328209273 @default.
W3211111915 cites W2496321242 @default.
W3211111915 cites W2522693117 @default.
W3211111915 cites W2524873664 @default.
W3211111915 cites W2534437415 @default.
W3211111915 cites W2556490634 @default.
W3211111915 cites W2611229562 @default.
W3211111915 cites W2620798614 @default.
W3211111915 cites W2727777163 @default.
W3211111915 cites W2765325332 @default.
W3211111915 cites W2895618833 @default.
W3211111915 cites W2897888331 @default.
W3211111915 cites W2949466436 @default.
W3211111915 cites W2950509974 @default.
W3211111915 cites W2967788266 @default.
W3211111915 cites W2976745440 @default.
W3211111915 cites W3005450427 @default.
W3211111915 cites W3033451317 @default.
W3211111915 cites W3080309869 @default.
W3211111915 cites W3096122848 @default.
W3211111915 cites W3106747998 @default.
W3211111915 cites W3113831364 @default.
W3211111915 cites W3126131829 @default.
W3211111915 cites W3161220679 @default.
W3211111915 cites W3179532848 @default.
W3211111915 cites W3199175157 @default.
W3211111915 cites W3008918953 @default.
W3211111915 doi "https://doi.org/10.1016/j.arabjc.2021.103530" @default.
W3211111915 hasPublicationYear "2022" @default.
W3211111915 type Work @default.
W3211111915 sameAs 3211111915 @default.
W3211111915 citedByCount "6" @default.
W3211111915 countsByYear W32111119152022 @default.
W3211111915 countsByYear W32111119152023 @default.
W3211111915 crossrefType "journal-article" @default.
W3211111915 hasAuthorship W3211111915A5017960750 @default.
W3211111915 hasAuthorship W3211111915A5054866942 @default.
W3211111915 hasAuthorship W3211111915A5055006132 @default.
W3211111915 hasAuthorship W3211111915A5078097989 @default.
W3211111915 hasAuthorship W3211111915A5082888540 @default.
W3211111915 hasBestOaLocation W32111119151 @default.
W3211111915 hasConcept C127413603 @default.
W3211111915 hasConcept C13965031 @default.
W3211111915 hasConcept C142724271 @default.
W3211111915 hasConcept C150394285 @default.
W3211111915 hasConcept C160892712 @default.
W3211111915 hasConcept C161790260 @default.
W3211111915 hasConcept C178790620 @default.
W3211111915 hasConcept C179104552 @default.
W3211111915 hasConcept C184651966 @default.