Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solution
Quantity of water is a major concern, but the quality is of more urgent concern due to heavy metal pollution. In this study, the focus was to develop adsorbents (tannin resin (TR) and iron-doped tannin resin (Fe-TR)) from invasive Acacia mearnsii for Pb2+ and Ni2+ in solution. The developed TR and F...
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2021-04-01
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| Series: | Environmental Challenges |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2667010021000378 |
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doaj-45c9d96af6924ab19d7d938bafa03a612021-07-08T04:05:14ZengElsevierEnvironmental Challenges2667-01002021-04-013100058Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solutionPatience M. Shilowa0Bamidele J. Okoli1Olugbemi T. Olaniyan2Johannes S. Modise3Fanyana Mtunzi4Institute of Chemical and Biotechnology, Vaal University of Technology, Southern Gauteng Science and Technology Park, Private Bag X021, Vanderbijlpark 1911, South AfricaInstitute of Chemical and Biotechnology, Vaal University of Technology, Southern Gauteng Science and Technology Park, Private Bag X021, Vanderbijlpark 1911, South Africa; Department of Chemical Sciences, Faculty of Science and Technology, Bingham University, PMB 005, Karu, Nasarawa State, Nigeria; Corresponding author at: Institute of Chemical and Biotechnology, Vaal University of Technology, Southern Gauteng Science and Technology Park, Private Bag X021, Vanderbijlpark 1911, South Africa.Laboratory for Reproductive Biology and Developmental Programming, Department of Physiology, Edo University Iyamho, Edo State, NigeriaDepartment of Chemistry, Vaal University of Technology, Southern Gauteng Science and Technology Park, Private Bag X021, Vanderbijlpark 1911, South AfricaInstitute of Chemical and Biotechnology, Vaal University of Technology, Southern Gauteng Science and Technology Park, Private Bag X021, Vanderbijlpark 1911, South AfricaQuantity of water is a major concern, but the quality is of more urgent concern due to heavy metal pollution. In this study, the focus was to develop adsorbents (tannin resin (TR) and iron-doped tannin resin (Fe-TR)) from invasive Acacia mearnsii for Pb2+ and Ni2+ in solution. The developed TR and Fe-TR were prepared directly by crosslinking and iron-grafting; respectively with thermal stable at ≤ 350 °C. Surface functionality analysis revealed the presence of chelating groups at ≈ 1688 and 3661 cm−1. The crystallite sizes of the adsorbents were smaller compared to tannin; however, the % carbon and nitrogen were significantly higher. Also, the Brunauer–Emmet–Teller study revealed that iron-grafting of tannin after crosslinking increases the surface area, pore volume and pore size. Furthermore, the surface morphology of adsorbents indicated a well-defined structure with the formation of a whitish deposit and rough lump-like after ion uptake. Both adsorbents showed a type II isotherm with adsorption capacities of 40.650 mg/g and 13.763 mg/g for Pb2+and 120.63 mg/g and 110.74 for Ni2+ ion by TR and Fe-TR; respectively. The absorbate-adsorbent interactions were observed to be endothermic with negative and positive Gibb's free energy values for the adsorption of Pb2+ and Ni2+; respectively. The adsorption kinetics of Ni2+ is governed by several models; however, Pb2+ interaction is regulated by Pseudo-second-order model. Furthermore, the data generated offered the possibility of both chemisorption and physisorption processes; highlighting the flexibility and multifunctionality of tannin traps for the erasure of ion impurities in wastewater.http://www.sciencedirect.com/science/article/pii/S2667010021000378Acacia mearnsiiAdsorptionPollutantHeavy metalTannin resinIron doped-tannin resin |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Patience M. Shilowa Bamidele J. Okoli Olugbemi T. Olaniyan Johannes S. Modise Fanyana Mtunzi |
| spellingShingle |
Patience M. Shilowa Bamidele J. Okoli Olugbemi T. Olaniyan Johannes S. Modise Fanyana Mtunzi Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solution Environmental Challenges Acacia mearnsii Adsorption Pollutant Heavy metal Tannin resin Iron doped-tannin resin |
| author_facet |
Patience M. Shilowa Bamidele J. Okoli Olugbemi T. Olaniyan Johannes S. Modise Fanyana Mtunzi |
| author_sort |
Patience M. Shilowa |
| title |
Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solution |
| title_short |
Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solution |
| title_full |
Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solution |
| title_fullStr |
Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solution |
| title_full_unstemmed |
Immobilised tannin: Efficient trap for nickel and lead ions in aqueous solution |
| title_sort |
immobilised tannin: efficient trap for nickel and lead ions in aqueous solution |
| publisher |
Elsevier |
| series |
Environmental Challenges |
| issn |
2667-0100 |
| publishDate |
2021-04-01 |
| description |
Quantity of water is a major concern, but the quality is of more urgent concern due to heavy metal pollution. In this study, the focus was to develop adsorbents (tannin resin (TR) and iron-doped tannin resin (Fe-TR)) from invasive Acacia mearnsii for Pb2+ and Ni2+ in solution. The developed TR and Fe-TR were prepared directly by crosslinking and iron-grafting; respectively with thermal stable at ≤ 350 °C. Surface functionality analysis revealed the presence of chelating groups at ≈ 1688 and 3661 cm−1. The crystallite sizes of the adsorbents were smaller compared to tannin; however, the % carbon and nitrogen were significantly higher. Also, the Brunauer–Emmet–Teller study revealed that iron-grafting of tannin after crosslinking increases the surface area, pore volume and pore size. Furthermore, the surface morphology of adsorbents indicated a well-defined structure with the formation of a whitish deposit and rough lump-like after ion uptake. Both adsorbents showed a type II isotherm with adsorption capacities of 40.650 mg/g and 13.763 mg/g for Pb2+and 120.63 mg/g and 110.74 for Ni2+ ion by TR and Fe-TR; respectively. The absorbate-adsorbent interactions were observed to be endothermic with negative and positive Gibb's free energy values for the adsorption of Pb2+ and Ni2+; respectively. The adsorption kinetics of Ni2+ is governed by several models; however, Pb2+ interaction is regulated by Pseudo-second-order model. Furthermore, the data generated offered the possibility of both chemisorption and physisorption processes; highlighting the flexibility and multifunctionality of tannin traps for the erasure of ion impurities in wastewater. |
| topic |
Acacia mearnsii Adsorption Pollutant Heavy metal Tannin resin Iron doped-tannin resin |
| url |
http://www.sciencedirect.com/science/article/pii/S2667010021000378 |
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