Hybrid inorganic/organic alumina adsorbents-functionalized-purpurogallin for removal and preconcentration of Cr(III), Fe(III), Cu(II), Cd(II) and Pb(II) from underground water
Metal pollution is well recognized as one of the major environmental problems that must be imperatively addressed and solved. In this study, three types of alumina adsorbents (I–III) were physically immobilized with purporogallin as a chelating ion exchangers. These were found to exhibit strong capa...
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| Published in: | Journal of hazardous materials Vol. 176; no. 1; pp. 906 - 912 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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Elsevier B.V
15-04-2010
Elsevier |
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| Abstract | Metal pollution is well recognized as one of the major environmental problems that must be imperatively addressed and solved. In this study, three types of alumina adsorbents (I–III) were physically immobilized with purporogallin as a chelating ion exchangers. These were found to exhibit strong capability and selectivity characters for a series of heavy metal ions. Surface modification of hybrid alumina was characterized and identified from the determination of surface coverage and infrared analysis. Hybrid alumina adsorbents were identified for their strong resistivity to acid leaching in pH
>
2–7 as well as their high thermal stability up to 350
°C. The ability of newly synthesized hybrid inorganic/organic alumina adsorbents (I–III) to bind and extract various metal ions was examined and evaluated in various buffer solutions (pH 1.0–7.0) via determination of the metal adsorption capacity values. These were identified as high as 420–560, 500–580 and 500–590
μmol
g
−1 for alumina adsorbents (I), (II) and (III), respectively in the case of high concentration levels of Cr(III), Fe(III) and Cu(II). The influence of alumina matrices were highly characterized when low concentration levels (μg
ml
−1 and ng
ml
−1) of metal ions were used. Hybrid alumina adsorbents were successfully applied for selective extraction, removal and preconcentration of various heavy metals from underground water samples with percentage recovery values of 92–100
±
1–3%. |
|---|---|
| AbstractList | Metal pollution is well recognized as one of the major environmental problems that must be imperatively addressed and solved. In this study, three types of alumina adsorbents (I-III) were physically immobilized with purporogallin as a chelating ion exchangers. These were found to exhibit strong capability and selectivity characters for a series of heavy metal ions. Surface modification of hybrid alumina was characterized and identified from the determination of surface coverage and infrared analysis. Hybrid alumina adsorbents were identified for their strong resistivity to acid leaching in pH>2-7 as well as their high thermal stability up to 350 degree C. The ability of newly synthesized hybrid inorganic/organic alumina adsorbents (I-III) to bind and extract various metal ions was examined and evaluated in various buffer solutions (pH 1.0-7.0) via determination of the metal adsorption capacity values. These were identified as high as 420-560, 500-580 and 500-590 mu molg super(-1) for alumina adsorbents (I), (II) and (III), respectively in the case of high concentration levels of Cr(III), Fe(III) and Cu(II). The influence of alumina matrices were highly characterized when low concentration levels ( mu gml super(-1) and ngml super(-1)) of metal ions were used. Hybrid alumina adsorbents were successfully applied for selective extraction, removal and preconcentration of various heavy metals from underground water samples with percentage recovery values of 92-100 plus or minus 1-3%. Metal pollution is well recognized as one of the major environmental problems that must be imperatively addressed and solved. In this study, three types of alumina adsorbents (I-III) were physically immobilized with purporogallin as a chelating ion exchangers. These were found to exhibit strong capability and selectivity characters for a series of heavy metal ions. Surface modification of hybrid alumina was characterized and identified from the determination of surface coverage and infrared analysis. Hybrid alumina adsorbents were identified for their strong resistivity to acid leaching in pH>2-7 as well as their high thermal stability up to 350 degrees C. The ability of newly synthesized hybrid inorganic/organic alumina adsorbents (I-III) to bind and extract various metal ions was examined and evaluated in various buffer solutions (pH 1.0-7.0) via determination of the metal adsorption capacity values. These were identified as high as 420-560, 500-580 and 500-590 micromol g(-1) for alumina adsorbents (I), (II) and (III), respectively in the case of high concentration levels of Cr(III), Fe(III) and Cu(II). The influence of alumina matrices were highly characterized when low concentration levels (microg ml(-1) and ng ml(-1)) of metal ions were used. Hybrid alumina adsorbents were successfully applied for selective extraction, removal and preconcentration of various heavy metals from underground water samples with percentage recovery values of 92-100+/-1-3%. Metal pollution is well recognized as one of the major environmental problems that must be imperatively addressed and solved. In this study, three types of alumina adsorbents (I–III) were physically immobilized with purporogallin as a chelating ion exchangers. These were found to exhibit strong capability and selectivity characters for a series of heavy metal ions. Surface modification of hybrid alumina was characterized and identified from the determination of surface coverage and infrared analysis. Hybrid alumina adsorbents were identified for their strong resistivity to acid leaching in pH > 2–7 as well as their high thermal stability up to 350 °C. The ability of newly synthesized hybrid inorganic/organic alumina adsorbents (I–III) to bind and extract various metal ions was examined and evaluated in various buffer solutions (pH 1.0–7.0) via determination of the metal adsorption capacity values. These were identified as high as 420–560, 500–580 and 500–590 μmol g −1 for alumina adsorbents (I), (II) and (III), respectively in the case of high concentration levels of Cr(III), Fe(III) and Cu(II). The influence of alumina matrices were highly characterized when low concentration levels (μg ml −1 and ng ml −1) of metal ions were used. Hybrid alumina adsorbents were successfully applied for selective extraction, removal and preconcentration of various heavy metals from underground water samples with percentage recovery values of 92–100 ± 1–3%. Metal pollution is well recognized as one of the major environmental problems that must be imperatively addressed and solved. In this study, three types of alumina adsorbents (I-III) were physically immobilized with purporogallin as a chelating ion exchangers. These were found to exhibit strong capability and selectivity characters for a series of heavy metal ions. Surface modification of hybrid alumina was characterized and identified from the determination of surface coverage and infrared analysis. Hybrid alumina adsorbents were identified for their strong resistivity to acid leaching in pH>2-7 as well as their high thermal stability up to 350 degrees C. The ability of newly synthesized hybrid inorganic/organic alumina adsorbents (I-III) to bind and extract various metal ions was examined and evaluated in various buffer solutions (pH 1.0-7.0) via determination of the metal adsorption capacity values. These were identified as high as 420-560, 500-580 and 500-590 micromol g(-1) for alumina adsorbents (I), (II) and (III), respectively in the case of high concentration levels of Cr(III), Fe(III) and Cu(II). The influence of alumina matrices were highly characterized when low concentration levels (microg ml(-1) and ng ml(-1)) of metal ions were used. Hybrid alumina adsorbents were successfully applied for selective extraction, removal and preconcentration of various heavy metals from underground water samples with percentage recovery values of 92-100+/-1-3%. |
| Author | Yakout, Amr A. Mahmoud, Mohamed E. Hafez, Osama F. Alrefaay, Ahmed Osman, Maher M. |
| Author_xml | – sequence: 1 givenname: Mohamed E. surname: Mahmoud fullname: Mahmoud, Mohamed E. email: memahmoud10@yahoo.com organization: Faculty of Sciences, Chemistry Department, Alexandria University, P.O. Box 426, Ibrahimia 21321, Alexandria, Egypt – sequence: 2 givenname: Osama F. surname: Hafez fullname: Hafez, Osama F. organization: Chemistry Department, College of Medicine, King Faisal University, P.O. 2114 Dammam, 31451, Saudi Arabia – sequence: 3 givenname: Maher M. surname: Osman fullname: Osman, Maher M. organization: Faculty of Sciences, Chemistry Department, Alexandria University, P.O. Box 426, Ibrahimia 21321, Alexandria, Egypt – sequence: 4 givenname: Amr A. surname: Yakout fullname: Yakout, Amr A. organization: Faculty of Sciences, Chemistry Department, Alexandria University, P.O. Box 426, Ibrahimia 21321, Alexandria, Egypt – sequence: 5 givenname: Ahmed surname: Alrefaay fullname: Alrefaay, Ahmed organization: Faculty of Sciences, Chemistry Department, Alexandria University, P.O. Box 426, Ibrahimia 21321, Alexandria, Egypt |
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| Copyright | 2009 Elsevier B.V. 2015 INIST-CNRS 2009 Elsevier B.V. All rights reserved. |
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| Keywords | Preconcentration Purpurogalin Alumina Heavy metals Underground water Selective extraction Adsorption capacity Metal ion Extract Buffer solution Thermal stability Heavy metal Iron III Pollution Lead pH Complexing ion exchanger Acid leaching |
| Language | English |
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| SubjectTerms | Acid leaching Adsorbents Adsorption Alumina Aluminum oxide Aluminum Oxide - chemistry Antioxidants - chemistry Applied sciences Benzocycloheptenes - chemistry Cadmium - isolation & purification Chemical engineering Chromium - isolation & purification Copper - isolation & purification Exact sciences and technology Heavy metals Ion exchange Ion exchangers Iron - isolation & purification Lead - isolation & purification Matrices Metal ions Metals, Heavy - isolation & purification Pollution Preconcentration Purpurogalin Underground Underground water Water Pollutants, Chemical - isolation & purification Water Purification - methods |
| Title | Hybrid inorganic/organic alumina adsorbents-functionalized-purpurogallin for removal and preconcentration of Cr(III), Fe(III), Cu(II), Cd(II) and Pb(II) from underground water |
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