The removal of heavy metal cations from an aqueous solution using ionic liquids

María Antonieta Valdés Vergara; Irina Victorovna Lijanova; Natalya Victorovna Likhanova; David Jaramillo Vigueras; Octavio Olivares Xometl

doi:10.1002/cjce.22053

The removal of heavy metal cations from an aqueous solution using ionic liquids

María Antonieta Valdés Vergara, Irina Victorovna Lijanova, Natalya Victorovna Likhanova, David Jaramillo Vigueras, Octavio Olivares Xometl

Centro de Investigación e Innovación Tecnológica (CIITEC)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

26 Citas (Scopus)

Resumen

The performance of new water immiscible halogen-free ionic liquids, which were synthesized from the corresponding trialkylamine, was evaluated by comparing it to that of a highly efficient commercial ionic liquid as extracting agent of heavy metal cations. In order to determine the amount of metal cations present in the aqueous phase, after performing the extraction process, the atomic absorption technique was used. The removal of metal cations, such as nickel, copper, lead, zinc, and cobalt, from the aqueous solution with an initial concentration of 25ppm performed by the synthesized ionic liquids at room temperature and neutral pH was highly efficient: for Ni (II), the efficiency was up to 96.00%; for Pb (II), it ranged from 93.00 to 99.00%; and for Cu (II), it almost reached 100%.

Idioma original	Inglés
Páginas (desde-hasta)	1875-1881
Número de páginas	7
Publicación	Canadian Journal of Chemical Engineering
Volumen	92
N.º	11
DOI	https://doi.org/10.1002/cjce.22053
Estado	Publicada - 1 nov. 2014

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abstract = "The performance of new water immiscible halogen-free ionic liquids, which were synthesized from the corresponding trialkylamine, was evaluated by comparing it to that of a highly efficient commercial ionic liquid as extracting agent of heavy metal cations. In order to determine the amount of metal cations present in the aqueous phase, after performing the extraction process, the atomic absorption technique was used. The removal of metal cations, such as nickel, copper, lead, zinc, and cobalt, from the aqueous solution with an initial concentration of 25ppm performed by the synthesized ionic liquids at room temperature and neutral pH was highly efficient: for Ni (II), the efficiency was up to 96.00%; for Pb (II), it ranged from 93.00 to 99.00%; and for Cu (II), it almost reached 100%.",

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AU - Vergara, María Antonieta Valdés

AU - Lijanova, Irina Victorovna

AU - Likhanova, Natalya Victorovna

AU - Vigueras, David Jaramillo

AU - Xometl, Octavio Olivares

PY - 2014/11/1

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N2 - The performance of new water immiscible halogen-free ionic liquids, which were synthesized from the corresponding trialkylamine, was evaluated by comparing it to that of a highly efficient commercial ionic liquid as extracting agent of heavy metal cations. In order to determine the amount of metal cations present in the aqueous phase, after performing the extraction process, the atomic absorption technique was used. The removal of metal cations, such as nickel, copper, lead, zinc, and cobalt, from the aqueous solution with an initial concentration of 25ppm performed by the synthesized ionic liquids at room temperature and neutral pH was highly efficient: for Ni (II), the efficiency was up to 96.00%; for Pb (II), it ranged from 93.00 to 99.00%; and for Cu (II), it almost reached 100%.

AB - The performance of new water immiscible halogen-free ionic liquids, which were synthesized from the corresponding trialkylamine, was evaluated by comparing it to that of a highly efficient commercial ionic liquid as extracting agent of heavy metal cations. In order to determine the amount of metal cations present in the aqueous phase, after performing the extraction process, the atomic absorption technique was used. The removal of metal cations, such as nickel, copper, lead, zinc, and cobalt, from the aqueous solution with an initial concentration of 25ppm performed by the synthesized ionic liquids at room temperature and neutral pH was highly efficient: for Ni (II), the efficiency was up to 96.00%; for Pb (II), it ranged from 93.00 to 99.00%; and for Cu (II), it almost reached 100%.

KW - Aqueous solutions

KW - Extraction

KW - Heavy metal

KW - Ionic liquids

KW - Synthesis

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JO - Canadian Journal of Chemical Engineering

JF - Canadian Journal of Chemical Engineering

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The removal of heavy metal cations from an aqueous solution using ionic liquids

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