Synthesis and Characterization of Chitosan templated Mesoporous Silica: Efficient use of Mesoporous Silica in the removal of Cu(II) from Aqueous Solutions

The present study aims to investigate the insights of Alizarin Yellow removal by hybrid materials precursor to natural bentonite. The hybrid materials employed are bentonite modified with hexadecyltrimethylammonium bromide (HDTMA) (BnH) and aluminium pillared HDTMA bentonite (BnAH). Surface morphology of materials are obtained with scanning electron microscopy-Energy dispersive X-ray analysis (SEM-EDX). The batch reactor operations conducted in the removal of Alizarin Yellow by these solids for various parametric studies which enabled to deduce the mechanism involved at solid/solution interface. Sorption capacity and selectivity was increased significantly using hybrid materials in the removal of AY. Hybrid materials showed very high removal capacity of AY and apparently unaffected at varied pH (4.0−10.0) and sorptive concentrations 1.0 to 25.0 mgL-1. Kinetic studies indicated that an apparent equilibrium occurred within 5–10 min of contact and the kinetic data was better fitted to the pseudo-second-order kinetic model. The percent removal of AY was not affected by increasing the background electrolyte (NaCl) concentration to 0.1 molL-1 and in presence of several co-existing ions. It is revealed that the hybrid materials are found more organophilic and AY molecule bound with strong forces at the surface of hybrid materials.

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Hybrid materials precursor to natural bentonite in the decontamination of Alizarin Yellow from aqueous solutions

Malsawmdawngzela

Sarikokba

Thanhmingliana

et al. 2021

Environmental Engineering Research

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Novel and highly efficient functionalized bentonite for elimination of Cu2+ and Cd2+ from aqueous wastes

Malsawmdawngzela

Lalhmunsiama

Tiwari

2021

Environmental Engineering Research

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The aim of this study was to synthesize novel and highly efficient functionalized material (BNMPTS) for selective elimination of Cu2+ and Cd2+ from aqueous waste. The detailed insights of solid/solution interactions were investigated by X-Ray photoelectron spectroscopic analyses. The grafting of silane caused for significant decrease in specific surface area of bentonite from 41.14 to 4.65 m2/g. The functionalized material possessed significantly high sorption capacity (12.59 mg/g for Cu2+ and 13.19 mg/g for Cd2+) and selectivity for these cations. The material showed very high elimination efficiency at a wide range of pH ~2.0 to 7.0 for Cu2+, ~3.0 to 10.0 for Cd2+ and concentration (1.0 to 25.0 mg/L) for Cu2+ and Cd2+. A rapid uptake of these two cations achieved an apparent equilibrium within 60 minutes of contact. The increased level of background electrolyte concentrations (0.0001 to 0.1 mol/L) did not affect the elimination efficiency of these two cations by BNMPTS. Moreover, the common coexisting ions did not inhibit the removal of these toxic ions. Furthermore, high breakthrough volumes i.e., 1.4 and 3.69 L for Cu2+, 2.6 and 6.64 L for Cd2+ was obtained using 0.25 and 0.50 g of BNMPTS respectively in a fixed-bed column operations.

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Synthesis and Characterization of Chitosan templated Mesoporous Silica: Efficient use of Mesoporous Silica in the removal of Cu(II) from Aqueous Solutions

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Hybrid materials precursor to natural bentonite in the decontamination of Alizarin Yellow from aqueous solutions

Hybrid materials precursor to natural bentonite in the decontamination of Alizarin Yellow from aqueous solutions

Novel and highly efficient functionalized bentonite for elimination of Cu2+ and Cd2+ from aqueous wastes

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