Sabrine Zghal scite author profile

The study of the adsorption efficiency of new carbon/CNT composites was undertaken to remove a cationic dye, Rhodamine B (RhB), from dye-contaminated wastewater. Indeed, we investigated the effect of different experimental parameters such as time, initial concentration of dye and temperature on the adsorption of RhB by the carbon composites (KS44-0 and KS44-20). The results showed that the adsorption uptake increased with the initial concentration and solution temperature while maintaining a relatively constant pH. The presence of the carbon nanotubes provided more active sites for dye removal and improved the adsorption behavior of Rhodamine B dye. The analysis of the experimental data was conducted using model equations, such as Langmuir, Freundlich and Temkin isotherms. As regards the Freundlich isotherm model, it was the best fit for the equilibrium data obtained from the experiments. The applicability of the pseudo-second-order equation could be explained assuming that the overall adsorption rate is limited by the rate of adsorbate transport that occurs on the pore surfaces of adsorbents. Furthermore, the intraparticle diffusion and Bangham models were used to investigate the diffusion mechanism of RhB absorption onto carbon composites. They showed that multiple adsorption stages occurred simultaneously via pore surface diffusion. Concerning the thermodynamic parameters (∆G°, ∆H°, and ∆S°), they were calculated and explained in the mean of the chemical structure of the adsorbate. Negative standard Gibbs free energy change values (ΔG°ads) at all temperatures suggested that the adsorption process was spontaneous, and the positive values of the standard enthalpy change of adsorption (∆H°ads) revealed the reaction to be endothermic. The values of standard enthalpy (ΔH°ads) and activation energy (Ea) indicated that the adsorption process corresponds to physical sorption. The mechanisms for the removal of Rhodamine B dye from wastewater using carbon composite were predicted. RhB is a planar molecule that is readily adsorbed, in which adsorbed molecules are bound by hydrophobic or other weak interactions due to the π-π interactions between the dyes’ aromatic backbones and the hexagonal skeleton of graphite and carbon nanotubes. Thus, the graphite carbon/carbon nanotube composite is believed to play a major role in organic pollutant reduction.

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Electroactive adsorbent composites of porous graphite carbon/carbon nanotube for highly efficient organic dye removal

Zghal

Jedidi

Cretin

et al. 2022

Korean J. Chem. Eng.

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Carbon nanomaterials for the treatment of water pollutant in the purpose of environmental remediation

Zghal

Jedidi

Cretin

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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A porous graphite carbon/carbon nanotubes material was fabricated by a one-step process using ferrocene, as a catalyzing agent for carbon nanotubes (CNTs) growth, phenolic resin, avicel and graphite powder. SEM images demonstrated that CNTs were grown in different shapes, diameters and lengths. The ferrocene and avicel contents were drastically changed the surface properties of carbon materials. The as-prepared composites were tested as adsorbents of high interest for wastewater treatment for the removal of humic acid (HA) dissolved in aqueous solutions. Results confirmed that porous carbon materials are considered as promising materials acting both as adsorbent and cathode in the adsorption process for wastewater treatment containing natural organic matter.

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Sabrine Zghal

One-step synthesis of highly porous carbon graphite/carbon nanotubes composite by in-situ growth of carbon nanotubes for the removal of humic acid and copper (II) from wastewater

Adsorptive Removal of Rhodamine B Dye Using Carbon Graphite/CNT Composites as Adsorbents: Kinetics, Isotherms and Thermodynamic Study

Electroactive adsorbent composites of porous graphite carbon/carbon nanotube for highly efficient organic dye removal

Carbon nanomaterials for the treatment of water pollutant in the purpose of environmental remediation

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