Modified Chitosan Hydrogels and Nano Hydrogels for Congo Red Removal from Aqueous System
Kandile, Nadia; Abir S. Nasr; H.T. Zaky; Shimaa Kh. Farouk;
Abstract
In the present work, sulfonamide chitosan derivatives were prepared via the
reaction of chitosan (Cs) with diphenyl ether – 4, 4`- disulfonylchloride (DPE) in
absence and/or presence of glutaraldehyde (G) to form the hydrogel (DPE-I) and
(DPE-II) respectively. The nanogels (DPE-III) and (DPE-IV) were prepared via
ionotropic gelation method in presence of sodium tri polyphosphate (TPP) under the
same reaction conditions. The hydrogels (DPE-I, DPE-II, DPE-III, and DPE- IV)
were characterized by different tools as: Elemental analysis, Fourier Transform Infra Red spectrometer (FT-IR), Proton Nuclear Magnetic Resonance (
1HNMR), Scanning
Electron Microscopy (SEM), and Transmission Electron Microscopy (TEM). The
adsorption efficiency of the prepared hydrogels for removal of congo red dye (CR)
from aqueous solution under different parameters such as (time, pH, and
concentration) was evaluated. The adsorption capacity of CR by the prepared
hydrogels increased with time, adsorbent dosage and the initial concentration of CR.
The optimum adsorption capacity for CR dye by the prepared hydrogels was at pH 7.
Hydrogels (DPE-III and DPE-IV) showed the highest efficiency for adsorption of
(CR) dye.
reaction of chitosan (Cs) with diphenyl ether – 4, 4`- disulfonylchloride (DPE) in
absence and/or presence of glutaraldehyde (G) to form the hydrogel (DPE-I) and
(DPE-II) respectively. The nanogels (DPE-III) and (DPE-IV) were prepared via
ionotropic gelation method in presence of sodium tri polyphosphate (TPP) under the
same reaction conditions. The hydrogels (DPE-I, DPE-II, DPE-III, and DPE- IV)
were characterized by different tools as: Elemental analysis, Fourier Transform Infra Red spectrometer (FT-IR), Proton Nuclear Magnetic Resonance (
1HNMR), Scanning
Electron Microscopy (SEM), and Transmission Electron Microscopy (TEM). The
adsorption efficiency of the prepared hydrogels for removal of congo red dye (CR)
from aqueous solution under different parameters such as (time, pH, and
concentration) was evaluated. The adsorption capacity of CR by the prepared
hydrogels increased with time, adsorbent dosage and the initial concentration of CR.
The optimum adsorption capacity for CR dye by the prepared hydrogels was at pH 7.
Hydrogels (DPE-III and DPE-IV) showed the highest efficiency for adsorption of
(CR) dye.
Other data
| Title | Modified Chitosan Hydrogels and Nano Hydrogels for Congo Red Removal from Aqueous System | Authors | Kandile, Nadia ; Abir S. Nasr; H.T. Zaky; Shimaa Kh. Farouk | Keywords | Chitosan;Diphenyl ether - 4, 4`-disulfonyl chloride;Nanoparticles;Dye removal | Issue Date | 2021 | Publisher | Faculty of Women for Art, Science and Education, Ain Shams University | Journal | Journal of Scientific Research in Science (JSRS) | Volume | 38 | Issue | 1 | Start page | 91 | End page | 117 | DOI | https://jsrs.journals.ekb.eg/ |
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