Multi-elemental ionic liquid-based solvent bar micro-extraction of priority and emerging trace metallic pollutants (Cd, Ag, Pd) in natural waters

•Cyphos® 101 solvent bar efficiently extracts Ag, Cd and Pd from saline samples.•Leaching lower than 0.1% was controlled by the use of solvent bar configuration.•Speciation of Ag, Cd and Pd is a key factor for extraction with Cyphos® 101. Transition metals Cd, Pd and Ag are toxic even at very low co...

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Veröffentlicht in:Journal of hazardous materials Jg. 370; S. 63 - 69
Hauptverfasser: Herce-Sesa, Belén, López-López, José A., Moreno, Carlos
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Netherlands Elsevier B.V 15.05.2019
Schlagworte:
atomic absorption spectrometry
Cadmium
Cyphos® 101
energy
Hyper-saline waters
Ionic liquid
ionic liquids
leaching
Liquid microextraction
liquid-phase microextraction
mixing
Palladium
pollutants
Seawater
Silver
Solvent bars
toxicity
wastewater
Cadmium
Silver
Hyper-saline waters
Palladium
Solvent bars
Liquid microextraction
Cyphos® 101
Seawater
Ionic liquid
ISSN:0304-3894, 1873-3336, 1873-3336
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Abstract •Cyphos® 101 solvent bar efficiently extracts Ag, Cd and Pd from saline samples.•Leaching lower than 0.1% was controlled by the use of solvent bar configuration.•Speciation of Ag, Cd and Pd is a key factor for extraction with Cyphos® 101. Transition metals Cd, Pd and Ag are toxic even at very low concentration. Cd is considered a priority substance; while, Pd and Ag are emerging pollutants. Membrane technologies have been applied for their extraction; however, they require important amounts of reagents, time and energy. Additionally, effective reagents for metal extraction in saline natural waters are limited. In this case, hollow fiber liquid phase micro-extraction with a configuration of solvent bar (SBME) using the ionic liquid Cyphos® 101 as extractant is proposed. Optimized conditions for SBME of Cd, Ag and Pd were 50% Cyphos® 101 in the organic solution, extraction time 30 min and 800 rpm stirring rate. Leaching was in all cases lower than 0.1%. Metallic concentrations were measured by flame atomic absorption spectroscopy. The method was applied to the extraction of Ag, Cd and Pd in natural water samples. Except for waste water, Pd extraction was higher than 90% in all cases. Cd (≈100%) and Ag (93–95%) offered their best results for saline samples. Concluding, the proposed system is a low cost and green methodology that allows a simple and fast extraction of trace pollutants such as Ag, Cd and Pd in different natural waters, including highly saline samples.
AbstractList Transition metals Cd, Pd and Ag are toxic even at very low concentration. Cd is considered a priority substance; while, Pd and Ag are emerging pollutants. Membrane technologies have been applied for their extraction; however, they require important amounts of reagents, time and energy. Additionally, effective reagents for metal extraction in saline natural waters are limited. In this case, hollow fiber liquid phase micro-extraction with a configuration of solvent bar (SBME) using the ionic liquid Cyphos® 101 as extractant is proposed. Optimized conditions for SBME of Cd, Ag and Pd were 50% Cyphos® 101 in the organic solution, extraction time 30 min and 800 rpm stirring rate. Leaching was in all cases lower than 0.1%. Metallic concentrations were measured by flame atomic absorption spectroscopy. The method was applied to the extraction of Ag, Cd and Pd in natural water samples. Except for waste water, Pd extraction was higher than 90% in all cases. Cd (≈100%) and Ag (93-95%) offered their best results for saline samples. Concluding, the proposed system is a low cost and green methodology that allows a simple and fast extraction of trace pollutants such as Ag, Cd and Pd in different natural waters, including highly saline samples.
•Cyphos® 101 solvent bar efficiently extracts Ag, Cd and Pd from saline samples.•Leaching lower than 0.1% was controlled by the use of solvent bar configuration.•Speciation of Ag, Cd and Pd is a key factor for extraction with Cyphos® 101. Transition metals Cd, Pd and Ag are toxic even at very low concentration. Cd is considered a priority substance; while, Pd and Ag are emerging pollutants. Membrane technologies have been applied for their extraction; however, they require important amounts of reagents, time and energy. Additionally, effective reagents for metal extraction in saline natural waters are limited. In this case, hollow fiber liquid phase micro-extraction with a configuration of solvent bar (SBME) using the ionic liquid Cyphos® 101 as extractant is proposed. Optimized conditions for SBME of Cd, Ag and Pd were 50% Cyphos® 101 in the organic solution, extraction time 30 min and 800 rpm stirring rate. Leaching was in all cases lower than 0.1%. Metallic concentrations were measured by flame atomic absorption spectroscopy. The method was applied to the extraction of Ag, Cd and Pd in natural water samples. Except for waste water, Pd extraction was higher than 90% in all cases. Cd (≈100%) and Ag (93–95%) offered their best results for saline samples. Concluding, the proposed system is a low cost and green methodology that allows a simple and fast extraction of trace pollutants such as Ag, Cd and Pd in different natural waters, including highly saline samples.
Transition metals Cd, Pd and Ag are toxic even at very low concentration. Cd is considered a priority substance; while, Pd and Ag are emerging pollutants. Membrane technologies have been applied for their extraction; however, they require important amounts of reagents, time and energy. Additionally, effective reagents for metal extraction in saline natural waters are limited. In this case, hollow fiber liquid phase micro-extraction with a configuration of solvent bar (SBME) using the ionic liquid Cyphos® 101 as extractant is proposed. Optimized conditions for SBME of Cd, Ag and Pd were 50% Cyphos® 101 in the organic solution, extraction time 30 min and 800 rpm stirring rate. Leaching was in all cases lower than 0.1%. Metallic concentrations were measured by flame atomic absorption spectroscopy. The method was applied to the extraction of Ag, Cd and Pd in natural water samples. Except for waste water, Pd extraction was higher than 90% in all cases. Cd (≈100%) and Ag (93-95%) offered their best results for saline samples. Concluding, the proposed system is a low cost and green methodology that allows a simple and fast extraction of trace pollutants such as Ag, Cd and Pd in different natural waters, including highly saline samples.Transition metals Cd, Pd and Ag are toxic even at very low concentration. Cd is considered a priority substance; while, Pd and Ag are emerging pollutants. Membrane technologies have been applied for their extraction; however, they require important amounts of reagents, time and energy. Additionally, effective reagents for metal extraction in saline natural waters are limited. In this case, hollow fiber liquid phase micro-extraction with a configuration of solvent bar (SBME) using the ionic liquid Cyphos® 101 as extractant is proposed. Optimized conditions for SBME of Cd, Ag and Pd were 50% Cyphos® 101 in the organic solution, extraction time 30 min and 800 rpm stirring rate. Leaching was in all cases lower than 0.1%. Metallic concentrations were measured by flame atomic absorption spectroscopy. The method was applied to the extraction of Ag, Cd and Pd in natural water samples. Except for waste water, Pd extraction was higher than 90% in all cases. Cd (≈100%) and Ag (93-95%) offered their best results for saline samples. Concluding, the proposed system is a low cost and green methodology that allows a simple and fast extraction of trace pollutants such as Ag, Cd and Pd in different natural waters, including highly saline samples.
Author López-López, José A.
Moreno, Carlos
Herce-Sesa, Belén
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Keywords Cadmium
Silver
Hyper-saline waters
Palladium
Solvent bars
Liquid microextraction
Cyphos® 101
Seawater
Ionic liquid
Language English
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Snippet •Cyphos® 101 solvent bar efficiently extracts Ag, Cd and Pd from saline samples.•Leaching lower than 0.1% was controlled by the use of solvent bar...
Transition metals Cd, Pd and Ag are toxic even at very low concentration. Cd is considered a priority substance; while, Pd and Ag are emerging pollutants....
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SubjectTerms atomic absorption spectrometry
Cadmium
Cyphos® 101
energy
Hyper-saline waters
Ionic liquid
ionic liquids
leaching
Liquid microextraction
liquid-phase microextraction
mixing
Palladium
pollutants
Seawater
Silver
Solvent bars
toxicity
wastewater
Title Multi-elemental ionic liquid-based solvent bar micro-extraction of priority and emerging trace metallic pollutants (Cd, Ag, Pd) in natural waters
URI https://dx.doi.org/10.1016/j.jhazmat.2018.02.024
https://www.ncbi.nlm.nih.gov/pubmed/29456129
https://www.proquest.com/docview/2004390957
https://www.proquest.com/docview/2237515260
Volume 370
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