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New trends in solid-phase microextraction

Eisert, R. and Pawliszyn, J.
1997
Critical Reviews in Analytical Chemistry 27 (2): 103-135

Eisert, R. and Pawliszyn, J., (1997), "New trends in solid-phase microextraction", Critical Reviews in Analytical Chemistry 27 (2): 103-135.
Abstract:
Recently introduced solid-phase microextraction (SPME) method has been applied to many different applications including analysis of air, water, and soil, both organic and inorganic target analytes. Several new devices based on SPME were developed to facilitate the application for air monitoring, integrated sampling, fast gas chromatography, solid-phase microextraction coupled to high-performance liquid chromatography, on-line screening systems, and automation of the entire sample preparation apparatus. This paper discusses recently published SPME methods in this field to outline the high potential of this unique microsampling technique. In addition, solid-phase microextraction is compared to classical sample preparation methods to demonstrate the advantages of this micro technique and new application fields of this technique.

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Author Information and Other Publications Notes
Eisert, R.
     
Pawliszyn, J.
Department of Chemistry, University of Waterloo, ON, Canada. janusz@uwaterloo.ca
  1. A laboratory technique for investigation of diffusion and transformation of volatile organic compounds in low permeability media
  2. Air sampling with porous solid-phase microextraction fibers
  3. Analysis of environmental air samples by solid-phase microextraction and gas-chromatography ion-trap mass-spectrometry
  4. Design and validation of portable SPME devices for rapid field air sampling and diffusion based calibration
  5. Evolution of solid-phase microextraction technology
  6. Fast field sampling/sample preparation and quantification of volatile organic compounds in indoor air by solid-phase microextraction and portable gas chromatography
  7. Recent advances in solid phase microextraction and membrane extraction with a sorbent interface
  8. Solid phase microextraction  


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