SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309294098> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W4309294098 endingPage "351" @default.
W4309294098 startingPage "337" @default.
W4309294098 abstract "We investigated for the first-time the fabrication of zinc oxide/water hyacinth-based activated carbon (ZnO/AC) and nano-magnetite (NM) (NM/ZnO/AC) nanohybrid for the utilization in photo-Fenton-like system. Response surface analysis showed that the optimal operating conditions for complete carbofuran degradation were pH 3, initial carbofuran concentration of 5.0 mg/L, PS concentration of 0.0923 mM and NM/ZnO/AC catalyst dose of 0.9 g/L. The degradation efficiencies declined to 46% and 28.8% after adding hydroxyl and sulfate radicals’ quenchers, respectively compared to 92.8% in the case of no scavenger confirming the major role of sulfate and hydroxyl radicals. The degradation percentages of carbofuran were 100%, 95.7%, 51.8%, 67.8% and 21.6% for distilled, tap, sea, lake and drain water matrices showing the inhibitory effect of dissolved organic matter, turbidity and inorganic ions on the degradation performance. The degradation efficiencies and mineralization ratios of carbofuran in the case of suspended NM/ZnO/AC were higher than that of immobilized mode in five succeeding runs. The by-products generated after carbofuran degradation were primarily produced by cleavage and attack of reactive radicals. The efficient degradation of carbofuran, as well as the reduction of the toxicity of the generated intermediates affirmed the viability of using the synthesized composite for industrial effluents treatment." @default.
W4309294098 created "2022-11-25" @default.
W4309294098 creator A5000409251 @default.
W4309294098 creator A5014285186 @default.
W4309294098 creator A5019780493 @default.
W4309294098 creator A5050115575 @default.
W4309294098 creator A5058291586 @default.
W4309294098 creator A5089969010 @default.
W4309294098 date "2023-01-01" @default.
W4309294098 modified "2023-10-16" @default.
W4309294098 title "Heterogeneous activation of persulfate by a novel nano-magnetite/ZnO/activated carbon nanohybrid for carbofuran degradation: Toxicity assessment, water matrices, degradation mechanism and radical and non-radical pathways" @default.
W4309294098 cites W1419805738 @default.
W4309294098 cites W1970332393 @default.
W4309294098 cites W2000335974 @default.
W4309294098 cites W2009604608 @default.
W4309294098 cites W2016947297 @default.
W4309294098 cites W2018978373 @default.
W4309294098 cites W2019635083 @default.
W4309294098 cites W2020426647 @default.
W4309294098 cites W2028179030 @default.
W4309294098 cites W2040727018 @default.
W4309294098 cites W2044593631 @default.
W4309294098 cites W2046396460 @default.
W4309294098 cites W2060484947 @default.
W4309294098 cites W2067784811 @default.
W4309294098 cites W2091372087 @default.
W4309294098 cites W2093812997 @default.
W4309294098 cites W2129048021 @default.
W4309294098 cites W2146544804 @default.
W4309294098 cites W2193324979 @default.
W4309294098 cites W2319006422 @default.
W4309294098 cites W2337685078 @default.
W4309294098 cites W2546723392 @default.
W4309294098 cites W2786699179 @default.
W4309294098 cites W2793741297 @default.
W4309294098 cites W2800631522 @default.
W4309294098 cites W2801276828 @default.
W4309294098 cites W2804345450 @default.
W4309294098 cites W2884790388 @default.
W4309294098 cites W2885288681 @default.
W4309294098 cites W2886224382 @default.
W4309294098 cites W2897850827 @default.
W4309294098 cites W2899957796 @default.
W4309294098 cites W2913201537 @default.
W4309294098 cites W2915735320 @default.
W4309294098 cites W2921796541 @default.
W4309294098 cites W2948531043 @default.
W4309294098 cites W2953046822 @default.
W4309294098 cites W2955188321 @default.
W4309294098 cites W2982073738 @default.
W4309294098 cites W2984237631 @default.
W4309294098 cites W2986000181 @default.
W4309294098 cites W2987547428 @default.
W4309294098 cites W2990222997 @default.
W4309294098 cites W2990676128 @default.
W4309294098 cites W2998370108 @default.
W4309294098 cites W3008092789 @default.
W4309294098 cites W3016155384 @default.
W4309294098 cites W3030401723 @default.
W4309294098 cites W3033960812 @default.
W4309294098 cites W3036264072 @default.
W4309294098 cites W3037600942 @default.
W4309294098 cites W3045722381 @default.
W4309294098 cites W3048843475 @default.
W4309294098 cites W3089379076 @default.
W4309294098 cites W3107166155 @default.
W4309294098 cites W3107823614 @default.
W4309294098 cites W3109157524 @default.
W4309294098 cites W3122532447 @default.
W4309294098 cites W3145206330 @default.
W4309294098 cites W3174646648 @default.
W4309294098 cites W3199025036 @default.
W4309294098 cites W3199086418 @default.
W4309294098 cites W3208692860 @default.
W4309294098 cites W3208867584 @default.
W4309294098 cites W3213215347 @default.
W4309294098 cites W3215986512 @default.
W4309294098 cites W3216811824 @default.
W4309294098 cites W4200376333 @default.
W4309294098 cites W4200544558 @default.
W4309294098 cites W4223593941 @default.
W4309294098 cites W4224302907 @default.
W4309294098 cites W4291923992 @default.
W4309294098 cites W4292078709 @default.
W4309294098 cites W4294474829 @default.
W4309294098 cites W4296929669 @default.
W4309294098 cites W4300861133 @default.
W4309294098 cites W4302287608 @default.
W4309294098 cites W4361868771 @default.
W4309294098 cites W788814809 @default.
W4309294098 cites W843007777 @default.
W4309294098 doi "https://doi.org/10.1016/j.psep.2022.11.038" @default.
W4309294098 hasPublicationYear "2023" @default.
W4309294098 type Work @default.
W4309294098 citedByCount "12" @default.
W4309294098 countsByYear W43092940982023 @default.
W4309294098 crossrefType "journal-article" @default.
W4309294098 hasAuthorship W4309294098A5000409251 @default.