SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4387182885> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W4387182885 endingPage "172350" @default.
W4387182885 startingPage "172350" @default.
W4387182885 abstract "Significant concern has been raised on water remediation processes because of the Fourth Industrial Revolution. Toxic organic chemical compounds generated as industrial waste directly spoil the aquatic environment. Thus, the development of photocatalysis is advancing because of the need to clean refractory organic effluents without causing secondary contamination. This work presents a distinctive method for fabricating a novel, efficient, and low-cost rGO-VS2 hybrid composite for photocatalytic dye degradation. The lattice spacing in rGO-VS2 confirmed the compact structure between rGO (0.33 nm) and VS2 (0.57 nm). The photocatalytic performance of the rGO-VS2 composite was determined by the degradation of Rhodamine B (RhB) dye by various optimization processes involving multiple arrays between rGO and VS2 and the effect of the catalyst dosage. The rVS2-3 photocatalyst shows better performance in degradation of RhB because after the addition of VS2 with rGO, the band gap of VS2 decreases from 1.92 to 0.89 eV. Among various materials, 50 mg of rVS2-3 photocatalyst at pH 6 provides excellent degradation efficiency (84.7%) and the highest reproducibility. The trapping test revealed that the direct oxidation of holes (h+) and hydroxyl radical (OH●) plays significant role while superoxide radical (O2●−) acts as secondary active species. The rVS2-3 provides more significant benefits during the dye degradation process, mainly by boosting hydroxyl radical (OH●) generation, effectively influencing the breakdown of the RhB dye molecules into minor toxic forms and minerals." @default.
W4387182885 created "2023-09-30" @default.
W4387182885 creator A5004624681 @default.
W4387182885 creator A5015002447 @default.
W4387182885 creator A5051943320 @default.
W4387182885 creator A5068963618 @default.
W4387182885 creator A5089692077 @default.
W4387182885 date "2023-12-01" @default.
W4387182885 modified "2023-10-06" @default.
W4387182885 title "2D layers of interconnected reduced graphene oxide with vanadium disulfide photocatalysts for Rhodamine B degradation" @default.
W4387182885 cites W1785858046 @default.
W4387182885 cites W2023405162 @default.
W4387182885 cites W2123260052 @default.
W4387182885 cites W2140746165 @default.
W4387182885 cites W2140888801 @default.
W4387182885 cites W2161104611 @default.
W4387182885 cites W2271631446 @default.
W4387182885 cites W2302255820 @default.
W4387182885 cites W2321669883 @default.
W4387182885 cites W2325648878 @default.
W4387182885 cites W2330893853 @default.
W4387182885 cites W2470191894 @default.
W4387182885 cites W2491286692 @default.
W4387182885 cites W2498257211 @default.
W4387182885 cites W2580115494 @default.
W4387182885 cites W2586685392 @default.
W4387182885 cites W2608805271 @default.
W4387182885 cites W2614150487 @default.
W4387182885 cites W2751826166 @default.
W4387182885 cites W2768806768 @default.
W4387182885 cites W2777870289 @default.
W4387182885 cites W2791938551 @default.
W4387182885 cites W2792485083 @default.
W4387182885 cites W2802790156 @default.
W4387182885 cites W2805895719 @default.
W4387182885 cites W2885125094 @default.
W4387182885 cites W2891454464 @default.
W4387182885 cites W2897172570 @default.
W4387182885 cites W2903053708 @default.
W4387182885 cites W2913319403 @default.
W4387182885 cites W2947596924 @default.
W4387182885 cites W2958069486 @default.
W4387182885 cites W2974927870 @default.
W4387182885 cites W2979352246 @default.
W4387182885 cites W2995340043 @default.
W4387182885 cites W3004576830 @default.
W4387182885 cites W3008809363 @default.
W4387182885 cites W3011291836 @default.
W4387182885 cites W3017097675 @default.
W4387182885 cites W3021897874 @default.
W4387182885 cites W3152575312 @default.
W4387182885 cites W3173799916 @default.
W4387182885 cites W3196586771 @default.
W4387182885 cites W3197396896 @default.
W4387182885 cites W3208182335 @default.
W4387182885 cites W3216085627 @default.
W4387182885 cites W3217441943 @default.
W4387182885 cites W4200000878 @default.
W4387182885 cites W4205278657 @default.
W4387182885 cites W4206925224 @default.
W4387182885 cites W4212864962 @default.
W4387182885 cites W4213010415 @default.
W4387182885 cites W4220826871 @default.
W4387182885 cites W4220966575 @default.
W4387182885 cites W4221126092 @default.
W4387182885 cites W4226150116 @default.
W4387182885 cites W4283772855 @default.
W4387182885 cites W4285404918 @default.
W4387182885 cites W4295681171 @default.
W4387182885 cites W4300717031 @default.
W4387182885 cites W4302287608 @default.
W4387182885 cites W4306744735 @default.
W4387182885 cites W4306880833 @default.
W4387182885 cites W4307154557 @default.
W4387182885 cites W4308494564 @default.
W4387182885 cites W4308888799 @default.
W4387182885 cites W4309485613 @default.
W4387182885 cites W4310070793 @default.
W4387182885 cites W4312083226 @default.
W4387182885 cites W4313449248 @default.
W4387182885 cites W4313480418 @default.
W4387182885 cites W4318052126 @default.
W4387182885 cites W4319786736 @default.
W4387182885 cites W4322615391 @default.
W4387182885 cites W4323664610 @default.
W4387182885 cites W4362672482 @default.
W4387182885 cites W4366609108 @default.
W4387182885 cites W4376869080 @default.
W4387182885 cites W4377992622 @default.
W4387182885 cites W4378078442 @default.
W4387182885 doi "https://doi.org/10.1016/j.jallcom.2023.172350" @default.
W4387182885 hasPublicationYear "2023" @default.
W4387182885 type Work @default.
W4387182885 citedByCount "0" @default.
W4387182885 crossrefType "journal-article" @default.
W4387182885 hasAuthorship W4387182885A5004624681 @default.
W4387182885 hasAuthorship W4387182885A5015002447 @default.
W4387182885 hasAuthorship W4387182885A5051943320 @default.