Discover new keys to solving analytical problems using the Latest sample preparation methods Commonly viewed of as a routine task rather than as an integral component in the analytical process, sample preparation has long been undervalued as a science and underdeveloped as a technology. In an effort to reverse this trend, Handbook of Sample Preparation shows why sample preparation deserves closer scientific scrutiny, and makes a compelling case for colleges and professional laboratories to devote more resources to promote the benefits of its correct application. Handbook of Sample Preparation…mehr
Discover new keys to solving analytical problems using the Latest sample preparation methods Commonly viewed of as a routine task rather than as an integral component in the analytical process, sample preparation has long been undervalued as a science and underdeveloped as a technology. In an effort to reverse this trend, Handbook of Sample Preparation shows why sample preparation deserves closer scientific scrutiny, and makes a compelling case for colleges and professional laboratories to devote more resources to promote the benefits of its correct application. Handbook of Sample Preparation includes: * A solid overview of standard sampling methodologies and their analytical capabilities * An introduction of non-traditional sampling technologies, which address the need for solvent-free alternatives, automation, and miniaturization * A discussion of the analytical shift toward performing sampling on-site, rather than in the laboratory * An examination of various extraction technologies and their applications for different types of matrices * A look at how to take advantage of new sampling strategies to streamline laboratory procedures, reduce research costs, and increase overall productivity An excellent primer on the fundamentals of extraction as well as a sound guide on the latest technological upgrades influencing current sampling techniques, this versatile text serves as an important and accessible tool for both students and seasoned practitioners as they seek new avenues for improving the accuracy of their analyses.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
JANUSZ PAWLISZYN, PhD, is a Professor in the Department of Chemistry at the University of Waterloo in Ontario, Canada. He is the author of Solid Phase Microextraction (Wiley) and Sampling and Sample Preparation in Field and Laboratory, and has been published in more than four hundred scientific publications. HEATHER L. LORD, PhD, is a Research Associate for New Analytical Methods and Technologies in the Department of Chemistry at the University of Waterloo. She received her PhD in 2005 under Dr. Pawliszyn.
Inhaltsangabe
Part A. Fundamental Extraction Techniques. 1. Theory of Extraction (Janusz Pawliszyn University of Waterloo). 2. Headspace Gas Chromatography (Zelda Penton Varian Inc. USA). 3. Liquid-Liquid Extraction in Environmental Analysis (Toh Ming Hii and Hian Kee Lee Department of Chemistry National University of Singapore). 4. Solid Phase Extraction (Ronald E. Majors Agilent Technologies USA). 5. Solid Phase Microextraction (Sanja Risticevic Dajana Vuckovic and Janusz Pawliszyn University of Waterloo). 6. Microdialysis Sampling as a Sample Preparation Method (Pradyot Nandi and Susan Lunte University of Kansas). 7. Liquid-phase Microextraction (LPME) Utilizing Porous Hollow Fibers (Stig Pedersen-Bjergaard and Knut Einar Rasmussen University of Oslo; Jan Åke Jönsson Lund University). 8. Sample Preparation in Membrane Introduction Mass Spectrometry (Raimo A. Ketola Tapio Kotiaho University of Helsinki Frants R. Lauritsen Copenhagen University). 9. Pressurised Fluid Extraction (John R. Dean and Renli Ma Northumbria University). 10. Superheated Water Extraction (Roger M. Smith Loughborough University). 11. Supercritical Fluid Extraction (Jeremy J. Kroon and Douglas E. Raynie South Dakota State University). 12. Microwave-Assisted Extraction (J. R. Jocelyn Paré and Jacqueline M. R. Bélanger Environment Canada). 13. Chemical Derivatizations in Analytical Extractions (Jack Rosenfeld McMaster University). Part B. Application Considerations. 14. Sample Preparation Techniques for Organic Pollutant Analysis (Ray E. Clement and Chunyan Hao Ontario Ministry of the Environment Canada). 15. Sample Preparation for the Study of Flavor Compounds in Food (Henryk H. Jelen Poznan University of Life Sciences). 16. Sampling and Sample Preparation for Clinical and Pharmaceutical Analysis (Hiroyuki Kataoka and Keita Saito Shujitsu University Okayama; Atsushi Yokoyama Okayama Prefectural Police Headquarters Tonda-cho Okayama). 17. Statistics of Sampling and Sample Preparation (Byron Kratochvil University of Alberta). 18. SPME Devices Integrating Sampling with Sample Preparation for On-site Analysis (Gangfeng Ouyang Sun Yat-sen University). Part C. Recent Developments. 19. Developments in the Use of Passive Sampling Devices for Monitoring Pollutants in Water (Graham A. Mills Richard Greenwood and Janine Brümmer University of Portsmouth; Rocio Aguilar-Martínez University Complutense of Madrid; Ian J. Allan Norsk Institutt for Vannforskning (NIVA); Jesper Knutsson Chalmers University of Technology; Branislav Vrana Water Research Institute Nabr. arm. gen. L. Svobodu). 20. Solid Phase Microextraction for Drug Analysis (Heather Lord University of Waterloo). 212. Sample Handling Protocols for Biosensor Applications (Andrew Chan Teresa Artuso and Ulrich J. Krull University of Toronto). 22. Sol-Gel Coatings and Monoliths in Analytical Sample Preparation (Scott Segro and Abdul Malik University of South Florida). 23. The use of Molecularly Imprinted Polymers for Sampling and Sample Preparation (Börje Sellergren Technische Universität Dortmund. Antonio Martin Esteban Dpto. Medio Ambiente INIA).
Part A. Fundamental Extraction Techniques. 1. Theory of Extraction (Janusz Pawliszyn University of Waterloo). 2. Headspace Gas Chromatography (Zelda Penton Varian Inc. USA). 3. Liquid-Liquid Extraction in Environmental Analysis (Toh Ming Hii and Hian Kee Lee Department of Chemistry National University of Singapore). 4. Solid Phase Extraction (Ronald E. Majors Agilent Technologies USA). 5. Solid Phase Microextraction (Sanja Risticevic Dajana Vuckovic and Janusz Pawliszyn University of Waterloo). 6. Microdialysis Sampling as a Sample Preparation Method (Pradyot Nandi and Susan Lunte University of Kansas). 7. Liquid-phase Microextraction (LPME) Utilizing Porous Hollow Fibers (Stig Pedersen-Bjergaard and Knut Einar Rasmussen University of Oslo; Jan Åke Jönsson Lund University). 8. Sample Preparation in Membrane Introduction Mass Spectrometry (Raimo A. Ketola Tapio Kotiaho University of Helsinki Frants R. Lauritsen Copenhagen University). 9. Pressurised Fluid Extraction (John R. Dean and Renli Ma Northumbria University). 10. Superheated Water Extraction (Roger M. Smith Loughborough University). 11. Supercritical Fluid Extraction (Jeremy J. Kroon and Douglas E. Raynie South Dakota State University). 12. Microwave-Assisted Extraction (J. R. Jocelyn Paré and Jacqueline M. R. Bélanger Environment Canada). 13. Chemical Derivatizations in Analytical Extractions (Jack Rosenfeld McMaster University). Part B. Application Considerations. 14. Sample Preparation Techniques for Organic Pollutant Analysis (Ray E. Clement and Chunyan Hao Ontario Ministry of the Environment Canada). 15. Sample Preparation for the Study of Flavor Compounds in Food (Henryk H. Jelen Poznan University of Life Sciences). 16. Sampling and Sample Preparation for Clinical and Pharmaceutical Analysis (Hiroyuki Kataoka and Keita Saito Shujitsu University Okayama; Atsushi Yokoyama Okayama Prefectural Police Headquarters Tonda-cho Okayama). 17. Statistics of Sampling and Sample Preparation (Byron Kratochvil University of Alberta). 18. SPME Devices Integrating Sampling with Sample Preparation for On-site Analysis (Gangfeng Ouyang Sun Yat-sen University). Part C. Recent Developments. 19. Developments in the Use of Passive Sampling Devices for Monitoring Pollutants in Water (Graham A. Mills Richard Greenwood and Janine Brümmer University of Portsmouth; Rocio Aguilar-Martínez University Complutense of Madrid; Ian J. Allan Norsk Institutt for Vannforskning (NIVA); Jesper Knutsson Chalmers University of Technology; Branislav Vrana Water Research Institute Nabr. arm. gen. L. Svobodu). 20. Solid Phase Microextraction for Drug Analysis (Heather Lord University of Waterloo). 212. Sample Handling Protocols for Biosensor Applications (Andrew Chan Teresa Artuso and Ulrich J. Krull University of Toronto). 22. Sol-Gel Coatings and Monoliths in Analytical Sample Preparation (Scott Segro and Abdul Malik University of South Florida). 23. The use of Molecularly Imprinted Polymers for Sampling and Sample Preparation (Börje Sellergren Technische Universität Dortmund. Antonio Martin Esteban Dpto. Medio Ambiente INIA).
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