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W3198450849 endingPage "117416" @default.
W3198450849 startingPage "117416" @default.
W3198450849 abstract "• CT complexation between urea and vacant orbital acceptors was investigated. • This complexation generated a metal oxide composite (NiFe 2 O 4 composite). • The NiFe 2 O 4 composite was crushed with fullerene CNTs. • The process yielded a solid, black NiFe 2 O 4 -CNT adsorbent material. • The synthesized adsorbent material has excellent adsorption efficiency. In this study, the charge-transfer complexation between urea as a donor and vacant orbital acceptors (i.e., FeCl 3 and NiCl 2 ) was used to generate a NiFe 2 O 4 composite. The resultant composite was used to increase the adsorption capacity of free fullerene carbon nanotubes (CNT) for two organic dyes as example models [toluidine blue (TB) and eosin B (EB)] by combining this CNT with the resultant composite. Fullerenes are a type of carbon nanomaterials which particularly well suited for environmental remediation applications due to their large surface area combined with unique physicochemical properties that render them easily biodegradable and nontoxic. They have great potential for the recovery and removal of dyestuff from water. Crushing the NiFe 2 O 4 composite with fullerene CNTs at a 1:10 M ratio (composite to CNT) in the presence of a few drops of methanol yielded a solid, black, homogenous NiFe 2 O 4 -CNT adsorbent material. This environmentally friendly approach enhanced the adsorption efficiency of free fullerene CNT for TB dye by 33% and for EB dye by 25%." @default.
W3198450849 created "2021-09-13" @default.
W3198450849 creator A5001151503 @default.
W3198450849 creator A5052498641 @default.
W3198450849 creator A5056934831 @default.
W3198450849 creator A5071167080 @default.
W3198450849 creator A5073419831 @default.
W3198450849 creator A5076317941 @default.
W3198450849 creator A5081991522 @default.
W3198450849 date "2021-11-01" @default.
W3198450849 modified "2023-10-16" @default.
W3198450849 title "Utilization of charge-transfer complexation to generate carbon-based nanomaterial for the adsorption of pollutants from contaminated water: Reaction between urea and vacant orbital acceptors" @default.
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