Liquid-phase microextraction techniques based on ionic liquids for preconcentration and determination of metals

•Ionic liquids (ILs) applied in liquid-phase microextraction (LPME) of metals.•We review the most widely used procedure in IL-LPME for inorganic analysis.•We discuss the possibility of speciation analysis and total metals determination.•The review includes description of the possible future trends i...

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Published inTrAC, Trends in analytical chemistry (Regular ed.) Vol. 61; pp. 54 - 66
Main Authors Stanisz, Ewa, Werner, Justyna, Zgoła-Grześkowiak, Agnieszka
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2014
Subjects
chemical analysis
Dispersive liquid-liquid microextraction
Hollow-fiber liquid-phase microextraction
Inorganic analysis
Ionic liquid
ionic liquids
Liquid-phase microextraction
Metal determination
metals
Preconcentration
Sample preparation
Single-drop microextraction
Speciation analysis
thermal stability
vapor pressure
wastes
Inorganic analysis
Liquid-phase microextraction
Speciation analysis
Sample preparation
Metal determination
Preconcentration
Dispersive liquid-liquid microextraction
Single-drop microextraction
Hollow-fiber liquid-phase microextraction
Ionic liquid
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Abstract •Ionic liquids (ILs) applied in liquid-phase microextraction (LPME) of metals.•We review the most widely used procedure in IL-LPME for inorganic analysis.•We discuss the possibility of speciation analysis and total metals determination.•The review includes description of the possible future trends in the subject. Current trends in analytical chemistry are leading to miniaturization and reduction in the cost of chemical analysis. Rapid development of traditional liquid-liquid extraction towards liquid-phase microextraction (LPME) is a direct consequence of these trends. Considerable reduction of solvents and waste has been achieved and the number of applications of LPME is rapidly growing. Different types of LPME have emerged, including single-drop microextraction, hollow-fiber LPME and dispersive liquid-liquid microextraction. However, the past decade brought considerable change to the analytical field with the application of ionic liquids (ILs). Their good thermal stability and low vapor pressure make them relatively non-hazardous for analytical applications in comparison to the solvents used traditionally. This review presents the applications of ILs in LPME of metals. It describes the most widely-used procedures and gives examples of emerging sample-preparation techniques.
AbstractList Current trends in analytical chemistry are leading to miniaturization and reduction in the cost of chemical analysis. Rapid development of traditional liquid-liquid extraction towards liquid-phase microextraction (LPME) is a direct consequence of these trends. Considerable reduction of solvents and waste has been achieved and the number of applications of LPME is rapidly growing. Different types of LPME have emerged, including single-drop microextraction, hollow-fiber LPME and dispersive liquid-liquid microextraction. However, the past decade brought considerable change to the analytical field with the application of ionic liquids (ILs). Their good thermal stability and low vapor pressure make them relatively non-hazardous for analytical applications in comparison to the solvents used traditionally. This review presents the applications of ILs in LPME of metals. It describes the most widely-used procedures and gives examples of emerging sample-preparation techniques.
•Ionic liquids (ILs) applied in liquid-phase microextraction (LPME) of metals.•We review the most widely used procedure in IL-LPME for inorganic analysis.•We discuss the possibility of speciation analysis and total metals determination.•The review includes description of the possible future trends in the subject. Current trends in analytical chemistry are leading to miniaturization and reduction in the cost of chemical analysis. Rapid development of traditional liquid-liquid extraction towards liquid-phase microextraction (LPME) is a direct consequence of these trends. Considerable reduction of solvents and waste has been achieved and the number of applications of LPME is rapidly growing. Different types of LPME have emerged, including single-drop microextraction, hollow-fiber LPME and dispersive liquid-liquid microextraction. However, the past decade brought considerable change to the analytical field with the application of ionic liquids (ILs). Their good thermal stability and low vapor pressure make them relatively non-hazardous for analytical applications in comparison to the solvents used traditionally. This review presents the applications of ILs in LPME of metals. It describes the most widely-used procedures and gives examples of emerging sample-preparation techniques.
Author Zgoła-Grześkowiak, Agnieszka
Stanisz, Ewa
Werner, Justyna
Author_xml – sequence: 1
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  givenname: Justyna
  surname: Werner
  fullname: Werner, Justyna
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  givenname: Agnieszka
  surname: Zgoła-Grześkowiak
  fullname: Zgoła-Grześkowiak, Agnieszka
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Keywords Inorganic analysis
Liquid-phase microextraction
Speciation analysis
Sample preparation
Metal determination
Preconcentration
Dispersive liquid-liquid microextraction
Single-drop microextraction
Hollow-fiber liquid-phase microextraction
Ionic liquid
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Snippet •Ionic liquids (ILs) applied in liquid-phase microextraction (LPME) of metals.•We review the most widely used procedure in IL-LPME for inorganic analysis.•We...
Current trends in analytical chemistry are leading to miniaturization and reduction in the cost of chemical analysis. Rapid development of traditional...
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SubjectTerms chemical analysis
Dispersive liquid-liquid microextraction
Hollow-fiber liquid-phase microextraction
Inorganic analysis
Ionic liquid
ionic liquids
Liquid-phase microextraction
Metal determination
metals
Preconcentration
Sample preparation
Single-drop microextraction
Speciation analysis
thermal stability
vapor pressure
wastes
Title Liquid-phase microextraction techniques based on ionic liquids for preconcentration and determination of metals
URI https://dx.doi.org/10.1016/j.trac.2014.06.008
https://www.proquest.com/docview/2116933033
Volume 61
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