Journal ArticleDOI
Solid Phase Microextraction for Quantitative Analysis in Nonequilibrium Situations
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TLDR
In this article, a theoretical model is proposed to deal with the dynamic adsorption process of solid phase microextraction (SPME), and a steady-state diffusion is assumed for SPME in an effectively agitated sampling medium.Abstract:
Solid phase microextraction (SPME) is a convenient and efficient extraction method that involves using a thin polymer film coating on a fine silica fiber to adsorb analytes of interests from a sample matrix. A theoretical model is proposed to deal with the dynamic adsorption process of SPME. In this model, mass diffusion from the matrix to the SPME polymer film is considered as the rate-determining step in reaching an adsorption equilibrium, and a steady-state diffusion is assumed for SPME in an effectively agitated sampling medium. Mathematical treatment of the adsorption process generates an expression that can describe experimental adsorption time profiles of the SPME process. The expression also provides a directly proportional relationship between the amount of analyte adsorbed by the SPME fiber and its initial concentration in the sample matrix. This relationship indicates that SPME quantification is feasible before an adsorption equilibrium is reached, once the agitation condition and the sampling ...read more
Citations
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Journal ArticleDOI
Applications of solid-phase microextraction in food analysis.
TL;DR: The SPME technique can be used routinely in combination with gas Chromatography (GC), GC-mass spectrometry (GC-MS), high-performance liquid chromatography (HPLC) or LC-MS, and can improve the detection limits.
Book
Solid phase microextraction
TL;DR: Solid phase microextraction (SPME) as mentioned in this paper uses a small volume of sorbent dispersed typically on the surface of small fibres, to isolate and concentrate analytes from sample matrix.
Journal ArticleDOI
Nondestructive sampling of living systems using in vivo solid-phase microextraction.
TL;DR: Nondestructive Sampling of Living Systems Using in Vivo Solid-Phase Microextraction Gangfeng Ouyang, Dajana Vuckovic, and Janusz Pawliszyn.
Journal ArticleDOI
Recent developments in polymer-based sorbents for solid-phase extraction.
TL;DR: New polymer-based materials, chromatographic modes, experimental configurations are described and their advantages for a rapid sample preparation of certain classes of compounds with different functional groups are discussed and compared to silica-based sorbents.
Journal ArticleDOI
Theory of analyte extraction by selected porous polymer SPME fibres
TL;DR: In this paper, the authors presented theoretical description of the extraction process for adsorption-type fibres, including PDMS-DVB (divinyl benzene), Carbowax−DVB, and CARBOWAX-TR (template resin).
References
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Journal ArticleDOI
Solid phase microextraction with thermal desorption using fused silica optical fibers
Journal ArticleDOI
Reactions at supercritical conditions: Applications and fundamentals
TL;DR: A review of chemical reactions in and with supercritical fluids can be found in this paper, where the authors discuss both fundamental studies and applications of reactions at supercritical conditions, with focus on work published after 1985.
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Dynamics of organic compound extraction from water using liquid-coated fused silica fibers
TL;DR: In this paper, the absorption and desorption processes of benzene, toluene, and p-xylene were described and compared with experimental results for solid-phase microextraction using poly(dimethylsiloxane)-coated fused silica optical fibers.
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Automation and optimization of solid-phase microextraction
TL;DR: The solid phase microextraction (SPME) technique as mentioned in this paper involves exposing a fused silica fiber that has been coated with a stationary phase to and aqueous solution containing organic contaminants.
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Optimization of solid-phase microextraction conditions for determination of phenols
TL;DR: In this article, a solid phase microextraction (SPME) method based on poly(acrylate)coated fibers has been developed for the phenol regulated by U.S. EPA wastewater method 604 and 623 and Ontario MISA Group 20 regulations.