The HPLC Solvent Guide PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download The HPLC Solvent Guide PDF full book. Access full book title The HPLC Solvent Guide by Paul C. Sadek. Download full books in PDF and EPUB format.
Author: Paul C. Sadek
Publisher: Wiley-Interscience
ISBN: 9780471118558
Category : Science
Languages : en
Pages : 0
Get Book
Book Description
An indispensable working resource for anyone who performs liquid chromatography The HPLC Solvent Guide provides an opportunity for analytical chemists to expand their experimental toolkits. It features extensive and detailed coverage of HPLC solvents currently used in most laboratory settings. Over the course of seven chapters, each one focusing on a specific solvent class, the author provides all the practical information needed to develop separations using these solvent classes. A valuable working reference for experimentalists in a broad array of industrial and research fields, The HPLC Solvent Guide * Divides solvents according to chemical class, then arranges the methods by field of application, and finally by groups of analytes * Provides complete descriptions of separations, including sample matrices, lists of analytes separated and quantified, chromatographic parameters, and results * Features tables listing individual solvents and their physical, chemical, and chromatographic properties; safety and health parameters; and availability, both in terms of supplier and performance specifications * Includes figures that show the chemical structure of each solvent discussed Solvent selection is perhaps the most commonly overlooked of experimental parameters in high-performance liquid chromatography. When performing separations, even the most experienced analytical chemist tends to select one of three solvents-acetonitrile, methanol, or water-overlooking the fact that many different classes of solvent can be used very effectively in HPLC. By providing extensive detailed coverage of HPLC solvents currently used in a wide range of separations, The HPLC Solvent Guide offers chemists an opportunity to expand their experimental repertoires. The author begins with an in-depth review of the role of solvents in HPLC. This is followed by a series of chapters devoted to the different classes of solvent. To facilitate easy reference, chapters are first grouped by solvent classes, including alcohols, alkanes, ethers, ketones, and nitriles. They are then further divided by field of application (e.g., environmental, pharmaceutical) and by specific analyte class (e.g., priority pollutants, anticancer drugs). Throughout, each separation is described as fully as possible, listing the sample matrix, analytes separated and quantified, chromatographic parameters used, and abbreviated results. As a consequence, even novice chromatographers have sufficient information to begin to develop a separation on the basis of a citation alone. Appealing to anyone doing HPLC are the four tables appearing in each of the seven chapters dealing with individual solvent classes. These tables list physical, chemical, and chromatographic properties; safety and health parameters; and availability, both in terms of supplier and performance specifications. A separate table provides the chemical structures of the solvents presented in each chapter. In writing this book, the author has drawn heavily from contemporary references in which the chromatograms for described separations were included, thus providing readers with clear reference points from which to conduct a more extensive historical literature review, if needed. Providing the most detailed treatment of HPLC solvents to date, The HPLC Solvent Guide is a valuable working resource for anyone who performs liquid chromatography.
Author: Paul C. Sadek
Publisher: Wiley-Interscience
ISBN: 9780471118558
Category : Science
Languages : en
Pages : 0
Get Book
Book Description
An indispensable working resource for anyone who performs liquid chromatography The HPLC Solvent Guide provides an opportunity for analytical chemists to expand their experimental toolkits. It features extensive and detailed coverage of HPLC solvents currently used in most laboratory settings. Over the course of seven chapters, each one focusing on a specific solvent class, the author provides all the practical information needed to develop separations using these solvent classes. A valuable working reference for experimentalists in a broad array of industrial and research fields, The HPLC Solvent Guide * Divides solvents according to chemical class, then arranges the methods by field of application, and finally by groups of analytes * Provides complete descriptions of separations, including sample matrices, lists of analytes separated and quantified, chromatographic parameters, and results * Features tables listing individual solvents and their physical, chemical, and chromatographic properties; safety and health parameters; and availability, both in terms of supplier and performance specifications * Includes figures that show the chemical structure of each solvent discussed Solvent selection is perhaps the most commonly overlooked of experimental parameters in high-performance liquid chromatography. When performing separations, even the most experienced analytical chemist tends to select one of three solvents-acetonitrile, methanol, or water-overlooking the fact that many different classes of solvent can be used very effectively in HPLC. By providing extensive detailed coverage of HPLC solvents currently used in a wide range of separations, The HPLC Solvent Guide offers chemists an opportunity to expand their experimental repertoires. The author begins with an in-depth review of the role of solvents in HPLC. This is followed by a series of chapters devoted to the different classes of solvent. To facilitate easy reference, chapters are first grouped by solvent classes, including alcohols, alkanes, ethers, ketones, and nitriles. They are then further divided by field of application (e.g., environmental, pharmaceutical) and by specific analyte class (e.g., priority pollutants, anticancer drugs). Throughout, each separation is described as fully as possible, listing the sample matrix, analytes separated and quantified, chromatographic parameters used, and abbreviated results. As a consequence, even novice chromatographers have sufficient information to begin to develop a separation on the basis of a citation alone. Appealing to anyone doing HPLC are the four tables appearing in each of the seven chapters dealing with individual solvent classes. These tables list physical, chemical, and chromatographic properties; safety and health parameters; and availability, both in terms of supplier and performance specifications. A separate table provides the chemical structures of the solvents presented in each chapter. In writing this book, the author has drawn heavily from contemporary references in which the chromatograms for described separations were included, thus providing readers with clear reference points from which to conduct a more extensive historical literature review, if needed. Providing the most detailed treatment of HPLC solvents to date, The HPLC Solvent Guide is a valuable working resource for anyone who performs liquid chromatography.
Author: Paul Charles Sadek
Publisher:
ISBN:
Category : High performance liquid chromatography
Languages : en
Pages : 346
Get Book
Book Description
Solvent selection is perhaps the most commonly overlooked of experimental parameters in high-performance liquid chromatography. When performing separations, even the most experienced analytical chemist tends to select one of three solvents - acetonitrile, methanol, or water - overlooking the fact that many different classes of solvent can be used very effectively in HPLC. By providing extensive detailed coverage of HPLC solvents currently used in a wide range of separations, The HPLC Solvent Guide offers chemists an opportunity to expand their experimental repertoires. The author begins with an in-depth review of the role of solvents in HPLC. This is followed by a series of chapters devoted to the different classes of solvent. To facilitate easy reference, chapters are first grouped by solvent classes, including alcohols, alkanes, ethers, ketones, and nitriles. They are then further divided by field of application (e.g., environmental, pharmaceutical) and by specific analyte class (e.g., priority pollutants, anti-cancer drugs). Throughout, each separation is described as fully as possible, listing the sample matrix, analytes separated and quantified, chromatographic parameters used, and abbreviated results. As a consequence, even novice chromatographers have sufficient information to begin to develop a separation on the basis of a citation alone.
Author: Paul C. Sadek
Publisher: John Wiley & Sons
ISBN: 0471678805
Category : Science
Languages : en
Pages : 237
Get Book
Book Description
Provides concise definitions, illustrations, formulas, and all of the other information that you need in a laboratory chromatography reference The Illustrated Pocket Dictionary of Chromatography offers the perfect quick reference to the parameters, systems, and components that support successful chromatographic separations. Concise, practical, and filled with detailed drawings, diagrams, and photographs, this pocket dictionary is designed for easy use in the laboratory. It provides a complete, up-to-date reference on analytical techniques such as gas chromatography, high-performance liquid chromatography, thin layer chromatography, and capillary electrophoresis as well as preparation techniques such as solid phase extraction and microextraction. The Illustrated Pocket Dictionary of Chromatography features: Explanations of key concepts Equations and formulas Parameters High-quality photographs of instruments, equipment, and components References for further research Explanations of common acronyms Ideal for the working chemist or technician in pharmaceutical, industrial, forensic, government, or other lab settings, the Illustrated Pocket Dictionary of Chromatography is also appropriate as a supplemental reference for analytical chemistry courses and labs. Students and analysts alike will find this compact yet comprehensive resource a valuable companion to their work in chromatography.
Author: Toshihiko T Hanai
Publisher: Royal Society of Chemistry
ISBN: 1847551076
Category : Science
Languages : en
Pages : 146
Get Book
Book Description
How can these compounds be separated? Why was that method used? These are the two basic questions often asked by students of chromatography. HPLC: A Practical Guide provides the answers, enabling the reader to grasp the concepts of the technique using simple, representative chromatograms. Divided into six chapters, this practical guide covers basic concepts of HPLC; instrumentation; stationary phase materials; eluents; column efficiency; and the influence of physical chemistry on separations. Focusing on the basic considerations such as selection of stationary phase and eluent, rather than specific applications, sections on troubleshooting are also included. Uniquely, the descriptions of chromatographic separations are based on solubility using molecular properties, and solubility parameters are used to analyse the selections of chromatographic mode and column. Presenting the chemistry of liquid chromatography for undergraduate students, this valuable practical guide will also be useful for laboratory staff in industry and academia.
Author: Paul Charles Sadek
Publisher: John Wiley & Sons
ISBN:
Category : Science
Languages : en
Pages : 670
Get Book
Book Description
High-performance liquid chromatography (HPLC) is a procedure for separating components from a mixture of chemical substances; a combination of separation, identification, and quantitative measurements. Solvent selection is perhaps the most commonly overlooked parameter in HPLC. Even the most experienced analytical chemist tends to select one of three familiar solvents. The HPLC Solvent Guide provides detailed coverage of all commonly used HPLC solvents used in a wide range of separations. HPLC is a mature but substantial market, and one that Wiley reaches successfully and well. The HPLC list is established, and this second edition of a successful title will build upon the success of the first. This is a revised and expanded edition in a field that is still growing into areas of analysis and methods.
Author: Dennis J. Runser
Publisher:
ISBN:
Category : Reference
Languages : en
Pages : 194
Get Book
Book Description
Provides users of HPLC equipment with a comprehensive text for troubleshooting and maintaining HPLC systems. Describes how the chromatographer can maintain the HPLC system in operating condition, what to look for and do to prevent and solve HPLC problems, and what can and should be done before calling a service representative. Organized into chapters which basically represent the typical components of the HPLC system, with each chapter describing a basic element of the HPLC system in terms of maintenance and solving system problems. Arranged as a guide and working manual to help the chromatographer reduce instrument downtime, allowing for more efficiency and cost effectiveness in the HPLC laboratory.
Author: Marvin C. McMaster
Publisher: John Wiley & Sons
ISBN: 0470079088
Category : Science
Languages : en
Pages : 256
Get Book
Book Description
This Second Edition of the classic handbook details how to set up an HPLC system that capitalizes on the latest innovations. It covers new techniques in high-temperature, micro-flow, and ultra-fast chromatography, the linking of an HPLC to a mass spectrometer, and more. Complete with a CD-ROM and appendices, this guide has everything chromatographers need to know to confidently separate, identify, purify, and quantify compounds. Note: CD-ROM/DVD and other supplementary materials are not included as part of eBook file.
Author: George Lunn
Publisher: John Wiley & Sons
ISBN: 0471711675
Category : Science
Languages : en
Pages : 743
Get Book
Book Description
An indispensable resource for busy researchers Your time is valuable-too valuable to spend hunting through the technical literature in search of the right HPLC assay techniques for your projects. With HPLC Methods for Recently Approved Pharmaceuticals, you'll quickly identify and replicate the ideal procedures for your project needs, without having to refer to original source publications. More of your time can then be spent in the lab, not the library. Covering the relevant world literature through 2003, this book picks up where Dr. Lunn's acclaimed HPLC Methods for Pharmaceutical Analysis left off. It arms you with established HPLC assay techniques for hundreds of newly approved drugs, as well as drugs for which assay methods were only recently developed. Combining detailed descriptions of procedures with specially annotated references, this practical handbook gives you: * HPLC methods for 390 commonly prescribed pharmaceutical compounds * Various procedures for each drug listed together-making it easy to mix and match for customized approaches * Methods for drugs in biological fluids and for bulk and formulated drugs * Chemical structures, molecular weights and formulas, and CAS Registry Numbers * Cross-references to The Merck Index * Retention times of other drugs that can be assayed using the same methods
Author:
Publisher:
ISBN:
Category : Solvents
Languages : en
Pages : 164
Get Book
Book Description
Author: Thorsten Teutenberg
Publisher: Royal Society of Chemistry
ISBN: 1849731098
Category : Science
Languages : en
Pages : 220
Get Book
Book Description
High-temperature liquid chromatography has attracted much interest in recent years but has not yet recognized its full potential in the chromatographic community. There is a widespread reluctance in industry to use temperature to speed up the separation process, influence the selectivity of a separation or implement novel detection techniques. However, the technology has now matured and could revolutionize chromatography as we see it today. Better equipment, such as heating systems able to generate faster heating rates, is becoming more readily available. Also, columns based on silica gel, which can withstand higher temperatures for an extended period, are now being introduced. Nevertheless, further technological and methodical efforts are needed to establish the method in a regulated environment like the pharmaceutical industry. This is the only text to cover all the practical aspects, as well as the underlying theoretical principles, of setting up an HPLC system for high temperature operation. It is not intended solely for academics but will also benefit the researcher interested in more practical considerations. The author is a recognized expert and has conducted several studies with partners from industry to validate the method. Many real examples from these studies have been included in the book. The aim is to support practitioners in the creation of their own protocols without the need to rely solely on trial and error. The book starts with a brief definition of high temperature liquid chromatography before going on to cover: system set up; the heating system; mobile phase considerations; suitable stationary phases; method development using temperature programming; analyte stability, and special hyphenation techniques using superheated water as a mobile phase. In each chapter, experimental data is used to illustrate the main statements and the advantages over conventional HPLC are evaluated. The book concludes with a critical outlook on further developments and applications underlining the necessary advances needed to make high temperature HPLC more robust.
