Effectiveness of carbon nanotube–cobalt ferrite nanocomposites for the adsorption of rhodamine B from aqueous solutions

Oyetade, Oluwaseun A.; Nyamori, Vincent O.; Martincigh, Bice S.; Jonnalagadda, Sreekantha B.

doi:10.1039/c4ra15446k

Cited by 94 publications

(64 citation statements)

References 71 publications

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“…The shorter the equilibrium time, the better the adsorbent. The equilibrium time of 5 min reported in this work is far lesser than those reported for carbon nanotubecobalt ferrite nanocomposites (equilibrium time = 6 h) used for removal of RhB in aqueous solution [57], implying that the GONS has a better affinity for RhB compared to the composites of carbon nanotube-cobalt ferrites. Zhou et al [37] have also demonstrated that GO is a better adsorbent than Fe l O ¡ /GO composites, in terms of enhanced adsorption capacity of former, due to replacement of active adsorption sites on GO by Fe l O ¡ nanoparticles of Fe l O ¡ /GO.…”

Section: Effect Of Contact Time and Adsorption Kineticscontrasting

confidence: 60%

Kinetics and Thermodynamic Studies for Rhodamine B Dye Removal onto Graphene Oxide Nanosheets in Simulated Wastewater

Bankole¹

2019

AJAC

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This report describes for the first time the kinetics, thermodynamic and optimized conditions for maximum removal of Rhodamine B in aqueous solution onto nanosheets of graphene oxides. Results from the GONS characterizations: UV, TEM, FTIR, EDX and XRD, revealed successful introduction of oxygen functionalities on the pristine graphite lattices. Adsorptive behaviour of RhB dye onto GONS under different experimental conditions such as pH, initial concentrations, adsorbent dosage, temperature, and contact time, were fully discussed in this work. The study showed that ≈93% of RhB was removed from simulated wastewater at; sorbent mass of 16.67mg; pH of 6.5; temperature of 298K; contact time of 60min; and concentrations ranging from 2.5 to 30mg/L. Experimental data tested against results of the kinetics and adsorption isotherm models, revealed that the sorption of RhB were best described by pseudo-second order and Freundlich models, respectively. Regeneration of the spent adsorbent was investigated using water, methanol and methanol/acetic acid (9:1) solution, as desorbing eluents. Methanol solution of acetic acid was observed to remove up to 94% of adsorbed RhB from GO surface compared to water (71.36%), and methanol (45.52%). The ease at which RhB was eluted from RhB-loaded GO using methanol/acetic acid (9:1), methanol and water shows that the adsorption mechanism is best described by physisorption.

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Section: Effect Of Contact Time and Adsorption Kineticscontrasting

confidence: 60%

Kinetics and Thermodynamic Studies for Rhodamine B Dye Removal onto Graphene Oxide Nanosheets in Simulated Wastewater

Bankole¹

2019

AJAC

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“…This fact suggests negative charge exists on the surface of MFe 2 O 4 /CNTs, promoting cationic adsorption during the adsorption process. 24,58 In addition, log K ow and log K oc of BZF are 4.25 and 1.0 at pH ¼ 7.4, 59 respectively, indicating that BZF has a high tendency to sorb onto the organic material. For practical application, the water matrix such as pH and organic carbon content, may have signicant effects on BZF adsorption.…”

Section: Adsorption Mechanismmentioning

confidence: 99%

“…Among the various magnetic materials, ferrites exhibit high efficiency and are environmentally friendly. 23,24 Some ferrites, such as MnFe 2 O 4 and CoFe 2 O 4 , are excellent adsorbents, and their magnetic properties ensure that they can be magnetically separated. 25 Furthermore, synergistic adsorptive removal of heavy metals from aqueous solution has been reported for combined application of ferrite and carbon materials.…”

Section: Introductionmentioning

confidence: 99%

Adsorptive removal of aqueous bezafibrate by magnetic ferrite modified carbon nanotubes

Yao

et al. 2017

RSC Adv.

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“…As seen from Figure 9 (d), AY17 removal efficiency fell from 78% to 36% as the initial AY17 concentration increased from 2 to 120 mg L -1 at 293 K. The reduction of dye removal efficiency may be due to the fact that at the higher initial dye concentration, the total exiting adsorptive sites are confined as a result of the fixed amount of adsorbent. Hence, saturation of the adsorptive sites of the adsorbent with dye anions may occur as the adsorption process continues, 28 leading to a decrease in dye removal with an increase in dye concentration. Furthermore, from Figure 9 (d), it is observed that the removal efficiency improved from 36% at 293 K to 61% at 323 K at an initial concentration of 120 mg L -1 .…”

Section: Effect Of Initial Ay17 Dye Concentrationmentioning

confidence: 99%

CoFe2O4/CHITOSAN MAGNETIC NANOCOMPOSITE: SYNTHESIS, CHARACTERIZATION AND APPLICATION FOR ADSORPTION OF ACIDIC YELLOW DYE FROM AQUEOUS SOLUTIONS

ANSARI¹,

Miralinaghi²,

AZIZINEZHAD³

2019

Cellulose Chem. Technol.

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Magnetic chitosan-modified CoFe 2 O 4 nanoparticles, CS/CoFe 2 O 4 , were successfully synthesized by an in situ coprecipitation technique. The structure, crystal phase, surface morphology and magnetic properties of CS/CoFe 2 O 4 were characterized by FTIR, TGA, XRD, FE-SEM, EDX and VSM analyses. The as-prepared CS/CoFe 2 O 4 nanoparticles were employed to adsorb Acid Yellow 17 dye (AY17) from aqueous solutions. The influence of experimental parameters, such as pH, temperature, contact time, adsorbent dosage and initial dye concentration on the efficiency of AY17 adsorption was studied. The maximum dye removal percentage reached 90% after 90 min adsorption at pH 4.0 and 323 K for the solution with an initial AY17 concentration of 30 mg L-1 and CS/CoFe 2 O 4 dose of 0.01 g. The adsorption kinetics agreed well with the pseudo-second order model. The isothermal data preferably followed the Langmuir model, with the maximum adsorption capacity of 89.10 mg g-1. Thermodynamic studies illustrated that the adsorption process is endothermic and spontaneous.

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Effectiveness of carbon nanotube–cobalt ferrite nanocomposites for the adsorption of rhodamine B from aqueous solutions

Cited by 94 publications

References 71 publications

Kinetics and Thermodynamic Studies for Rhodamine B Dye Removal onto Graphene Oxide Nanosheets in Simulated Wastewater

Kinetics and Thermodynamic Studies for Rhodamine B Dye Removal onto Graphene Oxide Nanosheets in Simulated Wastewater

Adsorptive removal of aqueous bezafibrate by magnetic ferrite modified carbon nanotubes

CoFe2O4/CHITOSAN MAGNETIC NANOCOMPOSITE: SYNTHESIS, CHARACTERIZATION AND APPLICATION FOR ADSORPTION OF ACIDIC YELLOW DYE FROM AQUEOUS SOLUTIONS

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