Fabrication of Engineered Silica-Functionalized-Polyanilines Nanocomposites for Water Decontamination of Cadmium and Lead

In this study, two novel functionalized silica nanocomposites were synthesized via covalent bonding with nanopolyaniline (NPANI) and crosslinked nanopolyaniline (CrossNPANI) to produce [NSi-NPANI] and [NSi-CrossNPANI], respectively. The two nanocomposites were portrayed by SEM, FT-IR, HR-TEM, BET-su...

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Published in:	Journal of polymers and the environment Vol. 26; no. 9; pp. 3858 - 3876
Main Authors:	Mahmoud, Mohamed E., Fekry, Nesma A.
Format:	Journal Article
Language:	English
Published:	New York Springer US 01-09-2018 Springer Nature B.V
Subjects:	Adsorption Adsorptivity CADMIUM Chemistry Chemistry and Materials Science Crosslinking Decontamination DRINKING WATER Enthalpy Entropy Environmental Chemistry Environmental Engineering/Biotechnology Fabrication Free energy Industrial Chemistry/Chemical Engineering INFRARED SPECTRA LEAD Materials Science Mathematical models NANOCOMPOSITES NANOSCIENCE AND NANOTECHNOLOGY Original Paper PARTICLE SIZE pH effects Polyanilines Polymer Sciences SCANNING ELECTRON MICROSCOPY Silica Silicon dioxide THERMAL GRAVIMETRIC ANALYSIS TRANSMISSION ELECTRON MICROSCOPY WASTE WATER Wastewater Water purification Kinetic study Divalent cadmium and lead Nanocomposites Adsorption isotherm models Nanopolyaniline Nanosilica
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Abstract	In this study, two novel functionalized silica nanocomposites were synthesized via covalent bonding with nanopolyaniline (NPANI) and crosslinked nanopolyaniline (CrossNPANI) to produce [NSi-NPANI] and [NSi-CrossNPANI], respectively. The two nanocomposites were portrayed by SEM, FT-IR, HR-TEM, BET-surface and TGA. The HR-TEM images of [NSi-NPANI] and [NSi-CrossNPANI] confirmed the particle size in the range 14.28–21.43 and 26.19–35.71 nm, respectively and these two nanocomposites were successfully applied to remove divalent cadmium and lead from solutions. As compared to nanosilica [NSi] sorbent, the maximum capacity values of the two nanocomposites for divalent cadmium and lead were identified to increase from 100–250 µmole g −1 (pH 1.0) to 750–800 µmole g −1 (pH 7.0) and from 400–1050 µmole g −1 (pH 1.0) to 650–1350 µmole g −1 (pH 6.0), at the optimum conditions. The adsorption data were compared using two and three parameter equations based on Langmuir, Freundlich, Temkin, Dubinin-Radushkevich, Redlish-Peterson and sips models. The kinetic study of [NSi-NPANI] and [NSi-CrossNPANI] revealed that the pseudo -second order kinetic was the best model to explain the kinetic data for cadmium(II) and lead(II). The free energy of sorption (ΔG o ), enthalpy (ΔH o ), and entropy (ΔS o ) changes were calculated to portend the nature of adsorption. Adsorptive extraction of toxic lead and cadmium from tap water and wastewater was successfully accomplished with the range of percentage recovery values 98.5–100.0 and 91.9–93.0%, respectively.
AbstractList	In this study, two novel functionalized silica nanocomposites were synthesized via covalent bonding with nanopolyaniline (NPANI) and crosslinked nanopolyaniline (CrossNPANI) to produce [NSi-NPANI] and [NSi-CrossNPANI], respectively. The two nanocomposites were portrayed by SEM, FT-IR, HR-TEM, BET-surface and TGA. The HR-TEM images of [NSi-NPANI] and [NSi-CrossNPANI] confirmed the particle size in the range 14.28–21.43 and 26.19–35.71 nm, respectively and these two nanocomposites were successfully applied to remove divalent cadmium and lead from solutions. As compared to nanosilica [NSi] sorbent, the maximum capacity values of the two nanocomposites for divalent cadmium and lead were identified to increase from 100–250 µmole g−1 (pH 1.0) to 750–800 µmole g−1 (pH 7.0) and from 400–1050 µmole g−1 (pH 1.0) to 650–1350 µmole g−1 (pH 6.0), at the optimum conditions. The adsorption data were compared using two and three parameter equations based on Langmuir, Freundlich, Temkin, Dubinin-Radushkevich, Redlish-Peterson and sips models. The kinetic study of [NSi-NPANI] and [NSi-CrossNPANI] revealed that the pseudo-second order kinetic was the best model to explain the kinetic data for cadmium(II) and lead(II). The free energy of sorption (ΔGo), enthalpy (ΔHo), and entropy (ΔSo) changes were calculated to portend the nature of adsorption. Adsorptive extraction of toxic lead and cadmium from tap water and wastewater was successfully accomplished with the range of percentage recovery values 98.5–100.0 and 91.9–93.0%, respectively. In this study, two novel functionalized silica nanocomposites were synthesized via covalent bonding with nanopolyaniline (NPANI) and crosslinked nanopolyaniline (CrossNPANI) to produce [NSi-NPANI] and [NSi-CrossNPANI], respectively. The two nanocomposites were portrayed by SEM, FT-IR, HR-TEM, BET-surface and TGA. The HR-TEM images of [NSi-NPANI] and [NSi-CrossNPANI] confirmed the particle size in the range 14.28–21.43 and 26.19–35.71 nm, respectively and these two nanocomposites were successfully applied to remove divalent cadmium and lead from solutions. As compared to nanosilica [NSi] sorbent, the maximum capacity values of the two nanocomposites for divalent cadmium and lead were identified to increase from 100–250 µmole g −1 (pH 1.0) to 750–800 µmole g −1 (pH 7.0) and from 400–1050 µmole g −1 (pH 1.0) to 650–1350 µmole g −1 (pH 6.0), at the optimum conditions. The adsorption data were compared using two and three parameter equations based on Langmuir, Freundlich, Temkin, Dubinin-Radushkevich, Redlish-Peterson and sips models. The kinetic study of [NSi-NPANI] and [NSi-CrossNPANI] revealed that the pseudo -second order kinetic was the best model to explain the kinetic data for cadmium(II) and lead(II). The free energy of sorption (ΔG o ), enthalpy (ΔH o ), and entropy (ΔS o ) changes were calculated to portend the nature of adsorption. Adsorptive extraction of toxic lead and cadmium from tap water and wastewater was successfully accomplished with the range of percentage recovery values 98.5–100.0 and 91.9–93.0%, respectively. In this study, two novel functionalized silica nanocomposites were synthesized via covalent bonding with nanopolyaniline (NPANI) and crosslinked nanopolyaniline (CrossNPANI) to produce [NSi-NPANI] and [NSi-CrossNPANI], respectively. The two nanocomposites were portrayed by SEM, FT-IR, HR-TEM, BET-surface and TGA. The HR-TEM images of [NSi-NPANI] and [NSi-CrossNPANI] confirmed the particle size in the range 14.28–21.43 and 26.19–35.71 nm, respectively and these two nanocomposites were successfully applied to remove divalent cadmium and lead from solutions. As compared to nanosilica [NSi] sorbent, the maximum capacity values of the two nanocomposites for divalent cadmium and lead were identified to increase from 100–250 µmole g{sup −1} (pH 1.0) to 750–800 µmole g{sup −1} (pH 7.0) and from 400–1050 µmole g{sup −1} (pH 1.0) to 650–1350 µmole g{sup −1} (pH 6.0), at the optimum conditions. The adsorption data were compared using two and three parameter equations based on Langmuir, Freundlich, Temkin, Dubinin-Radushkevich, Redlish-Peterson and sips models. The kinetic study of [NSi-NPANI] and [NSi-CrossNPANI] revealed that the pseudo-second order kinetic was the best model to explain the kinetic data for cadmium(II) and lead(II). The free energy of sorption (ΔG{sup o}), enthalpy (ΔH{sup o}), and entropy (ΔS{sup o}) changes were calculated to portend the nature of adsorption. Adsorptive extraction of toxic lead and cadmium from tap water and wastewater was successfully accomplished with the range of percentage recovery values 98.5–100.0 and 91.9–93.0%, respectively.
Author	Mahmoud, Mohamed E. Fekry, Nesma A.
Author_xml	– sequence: 1 givenname: Mohamed E. surname: Mahmoud fullname: Mahmoud, Mohamed E. email: memahmoud10@yahoo.com organization: Chemistry Department, Faculty of Sciences, Alexandria University – sequence: 2 givenname: Nesma A. surname: Fekry fullname: Fekry, Nesma A. organization: Chemistry Department, Faculty of Sciences, Alexandria University
BackLink	https://www.osti.gov/biblio/22787969$$D View this record in Osti.gov
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CitedBy_id	crossref_primary_10_1080_00914037_2020_1725764 crossref_primary_10_1016_j_jhazmat_2020_122770 crossref_primary_10_1016_j_msec_2019_110199 crossref_primary_10_1007_s11356_022_19793_9 crossref_primary_10_1016_j_biortech_2019_122514 crossref_primary_10_1016_j_jwpe_2022_102562 crossref_primary_10_1016_j_gsd_2021_100582 crossref_primary_10_1016_j_scp_2020_100336 crossref_primary_10_1016_j_molliq_2021_115734 crossref_primary_10_1007_s10924_018_1356_7 crossref_primary_10_1016_j_aej_2022_02_014 crossref_primary_10_1016_j_jiec_2022_08_020 crossref_primary_10_3390_polym12051102
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Keywords	Kinetic study Divalent cadmium and lead Nanocomposites Adsorption isotherm models Nanopolyaniline Nanosilica
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Snippet	In this study, two novel functionalized silica nanocomposites were synthesized via covalent bonding with nanopolyaniline (NPANI) and crosslinked...
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SubjectTerms	Adsorption Adsorptivity CADMIUM Chemistry Chemistry and Materials Science Crosslinking Decontamination DRINKING WATER Enthalpy Entropy Environmental Chemistry Environmental Engineering/Biotechnology Fabrication Free energy Industrial Chemistry/Chemical Engineering INFRARED SPECTRA LEAD Materials Science Mathematical models NANOCOMPOSITES NANOSCIENCE AND NANOTECHNOLOGY Original Paper PARTICLE SIZE pH effects Polyanilines Polymer Sciences SCANNING ELECTRON MICROSCOPY Silica Silicon dioxide THERMAL GRAVIMETRIC ANALYSIS TRANSMISSION ELECTRON MICROSCOPY WASTE WATER Wastewater Water purification
Title	Fabrication of Engineered Silica-Functionalized-Polyanilines Nanocomposites for Water Decontamination of Cadmium and Lead
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