Chromatographic method for pre-concentration and separation of Zn( ii ) with microalgae and density functional optimization of the extracted species

Chromatographic method for pre-concentration and separation of Zn( ii ) with microalgae and density functional optimization of the extracted species

A novel wild strain of microalgae, Phormidium luridum containing Gloeothece rupestris and Chlorococcum infusionum (99 : 0.08 : 0.02), was studied for its ability to remove and retrieve Zn(ii) from aqueous solutions in the presence of some commonly occurring ions (Na super(+), K super(+), Cl super(-)...

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Veröffentlicht in:RSC advances 2015-01, Vol.5 (39), p.31205-31218
Hauptverfasser: Mandal, Bhabatosh, Mondal, Monalisha, Srivastava, Bhavya, Barman, Milan K, Ghosh, Chandan, Chatterjee, Mousumi
Format: Artikel
Sprache:eng
Schlagworte:
Algae
Chlorococcum
Enrichment
Formations
Gloeothece
Nutrients
Optimization
Phormidium
River basins
Surface chemistry
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container_end_page 31218
container_issue 39
container_start_page 31205
container_title RSC advances
container_volume 5
creator Mandal, Bhabatosh
Mondal, Monalisha
Srivastava, Bhavya
Barman, Milan K
Ghosh, Chandan
Chatterjee, Mousumi
description A novel wild strain of microalgae, Phormidium luridum containing Gloeothece rupestris and Chlorococcum infusionum (99 : 0.08 : 0.02), was studied for its ability to remove and retrieve Zn(ii) from aqueous solutions in the presence of some commonly occurring ions (Na super(+), K super(+), Cl super(-), SO sub(4) super(2-), ClO sub(4) super(-), NO sub(3) super(-)) in their natural contamination concentration range (50-300 mg L super(-1)). The algae, which were previously collected from the river basin (Ajay), were grown on naturally occurring gravels in a glass column of nutrient enriched raw water media. Systematic studies of the sorption of Zn(ii) (0.02 mg mL super(-1)) over a pH range of 4.5-7.5 identified a maximum removal extent of 104 mu M g super(-1) at neutral pH, mainly by adsorption at the surface layer. Zn(ii) was retrieved by selective elution with 5 10 super(-3) M HNO sub(3) solution. Initially, [Zn(H sub(2)O)(OH)] super(+) ( eta sub([Zn(OH)(H) sub(2)O)] super(+) = 1.25 eV) is adsorbed at the surface of the algae, which is built up of polysaccharides ( eta sub([glucose]) = 6.34 eV), before moving inside by the formation of a more stable complex with Phycocyanobilin2, which has similar hardness ( eta sub([Phycocyanobilin]) = 2.37 eV). The complex is stabilized by -52 195.48 eV mol super(-1) through the formation of two strong intramolecular hydrogen bonds (-OH...O = 163.54 pm; HOH...O = 129.71 pm). Density functional theory optimization corroborates a stable [Zn(H sub(2)O)(OH)] super(+)-Phycocyanobilin2 tetrahedral complex.
doi_str_mv 10.1039/c5ra01867f
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The algae, which were previously collected from the river basin (Ajay), were grown on naturally occurring gravels in a glass column of nutrient enriched raw water media. Systematic studies of the sorption of Zn(ii) (0.02 mg mL super(-1)) over a pH range of 4.5-7.5 identified a maximum removal extent of 104 mu M g super(-1) at neutral pH, mainly by adsorption at the surface layer. Zn(ii) was retrieved by selective elution with 5 10 super(-3) M HNO sub(3) solution. Initially, [Zn(H sub(2)O)(OH)] super(+) ( eta sub([Zn(OH)(H) sub(2)O)] super(+) = 1.25 eV) is adsorbed at the surface of the algae, which is built up of polysaccharides ( eta sub([glucose]) = 6.34 eV), before moving inside by the formation of a more stable complex with Phycocyanobilin2, which has similar hardness ( eta sub([Phycocyanobilin]) = 2.37 eV). The complex is stabilized by -52 195.48 eV mol super(-1) through the formation of two strong intramolecular hydrogen bonds (-OH...O = 163.54 pm; HOH...O = 129.71 pm). 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The algae, which were previously collected from the river basin (Ajay), were grown on naturally occurring gravels in a glass column of nutrient enriched raw water media. Systematic studies of the sorption of Zn(ii) (0.02 mg mL super(-1)) over a pH range of 4.5-7.5 identified a maximum removal extent of 104 mu M g super(-1) at neutral pH, mainly by adsorption at the surface layer. Zn(ii) was retrieved by selective elution with 5 10 super(-3) M HNO sub(3) solution. Initially, [Zn(H sub(2)O)(OH)] super(+) ( eta sub([Zn(OH)(H) sub(2)O)] super(+) = 1.25 eV) is adsorbed at the surface of the algae, which is built up of polysaccharides ( eta sub([glucose]) = 6.34 eV), before moving inside by the formation of a more stable complex with Phycocyanobilin2, which has similar hardness ( eta sub([Phycocyanobilin]) = 2.37 eV). The complex is stabilized by -52 195.48 eV mol super(-1) through the formation of two strong intramolecular hydrogen bonds (-OH...O = 163.54 pm; HOH...O = 129.71 pm). Density functional theory optimization corroborates a stable [Zn(H sub(2)O)(OH)] super(+)-Phycocyanobilin2 tetrahedral complex.</abstract><doi>10.1039/c5ra01867f</doi><tpages>14</tpages></addata></record>
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source Royal Society Of Chemistry Journals 2008-
subjects Algae
Chlorococcum
Enrichment
Formations
Gloeothece
Nutrients
Optimization
Phormidium
River basins
Surface chemistry
title Chromatographic method for pre-concentration and separation of Zn( ii ) with microalgae and density functional optimization of the extracted species
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