Introduction to Modern Liquid Chromatography, 3rd Edition
December 2009, ©2010
High-performance liquid chromatography (HPLC) is today the leading technique for chemical analysis and related applications, with an ability to separate, analyze, and/or purify virtually any sample. Snyder and Kirkland's Introduction to Modern Liquid Chromatography has long represented the premier reference to HPLC. This Third Edition, with John Dolan as added coauthor, addresses important improvements in columns and equipment, as well as major advances in our understanding of HPLC separation, our ability to solve problems that were troublesome in the past, and the application of HPLC for new kinds of samples.
This carefully considered Third Edition maintains the strengths of the previous edition while significantly modifying its organization in light of recent research and experience. The text begins by introducing the reader to HPLC, its use in relation to other modern separation techniques, and its history, then leads into such specific topics as:
- The basis of HPLC separation and the general effects of different experimental conditions
- Equipment and detection
- The column—the "heart" of the HPLC system
- Reversed-phase separation, normal-phase chromatography, gradient elution, two-dimensional separation, and other techniques
- Computer simulation, qualitative and quantitative analysis, and method validation and quality control
- The separation of large molecules, including both biological and synthetic polymers
- Chiral separations, preparative separations, and sample preparation
- Systematic development of HPLC separations—new to this edition
- Troubleshooting tricks, techniques, and case studies for both equipment and chromatograms
GLOSSARY OF SYMBOLS AND ABBREVIATIONS.
1.1 Background Information.
1.2 A Short History of HPLC.
1.3 Some Alternatives to HPLC.
1.4 Other Sources of HPLC Information.
2 BASIC CONCEPTS AND THE CONTROL OF SEPARATION.
2.2 The Chromatographic Process.
2.4 Peak Width and the Column Plate Number N.
2.5 Resolution and Method Development.
2.6 Sample Size Effects.
2.7 RELATED TOPICS.
3.2 Reservoirs and Solvent Filtration.
3.3 Mobile-Phase Degassing.
3.4 Tubing and Fittings.
3.5 Pumping Systems.
3.7 Column Ovens.
3.8 Data Systems.
3.9 Extra-Column Effects.
4.2 Detector Characteristics.
4.3 Introduction to Individual Detectors.
4.4 UV-Visible Detectors.
4.5 Fluorescence Detectors.
4.6 Electrochemical (Amperometric) Detectors.
4.7 Radioactivity Detectors.
4.8 Conductivity Detectors.
4.9 Chemiluminescent Nitrogen Detector.
4.10 Chiral Detectors.
4.11 Refractive Index Detectors.
4.12 Light-Scattering Detectors.
4.13 Corona-Discharge Detector (CAD).
4.14 Mass Spectral Detectors (MS).
4.15 Other Hyphenated Detectors.
4.16 Sample Derivatization and Reaction Detectors.
5 THE COLUMN.
5.2 Column Supports.
5.3 Stationary Phases.
5.4 Column Selectivity.
5.5 Column Hardware.
5.6 Column-Packing Methods.
5.7 Column Specifications.
5.8 Column Handling.
6 REVERSED-PHASE CHROMATOGRAPHY FOR NEUTRAL SAMPLES.
6.4 Method Development and Strategies for Optimizing Selectivity.
6.5 Nonaqueous Reversed-Phase Chromatography (NARP).
6.6 Special Problems.
7 IONIC SAMPLES: REVERSED-PHASE, ION-PAIR, AND IONEXCHANGE CHROMATOGRAPHY.
7.2 Acid-Base Equilibria and Reversed-Phase Retention.
7.3 Separation of Ionic Samples by Reversed-Phase Chromatography (RPC).
7.4 Ion-Pair Chromatography (IPC).
7.5 Ion-Exchange Chromatography (IEC).
8 NORMAL-PHASE CHROMATOGRAPHY.
8.4 Method-Development Summary.
8.5 Problems in the Use of NPC.
8.6 Hydrophilic Interaction Chromatography (HILIC).
9 GRADIENT ELUTION.
9.2 Experimental Conditions and Their Effects on Separation.
9.3 Method Development.
9.4 Large-Molecule Separations.
9.5 Other Separation Modes.
10 COMPUTER-ASSISTED METHOD DEVELOPMENT.
10.2 Computer-Simulation Software.
10.3 Other Method-Development Software.
10.4 Computer Simulation and Method Development.
11 QUALITATIVE AND QUANTITATIVE ANALYSIS.
11.2 Signal Measurement.
11.3 Qualitative Analysis.
11.4 Quantitative Analysis.
12 METHOD VALIDATION.
12.2 Terms and Definitions.
12.3 System Suitability.
12.5 Validation for Different Pharmaceutical-Method Types.
12.6 Bioanalytical Methods.
12.7 Analytical Method Transfer (AMT).
12.8 Method Adjustment or Method Modification.
12.9 Quality Control and Quality Assurance.
13 BIOCHEMICAL AND SYNTHETIC POLYMER SEPARATIONS.
13.2 Molecular Structure and Conformation.
13.3 Special Considerations for Biomolecule HPLC.
13.4 Separation of Peptides and Proteins.
13.5 Separation of Nucleic Acids.
13.6 Separation of Carbohydrates.
13.7 Separation of Viruses.
13.8 Size-Exclusion Chromatography (SEC).
13.9 Large-Scale Purification of Large Biomolecules.
13.10 Synthetic Polymers.
14 ENANTIOMER SEPARATIONS.
14.2 Background and Definitions.
14.3 Indirect Method.
14.4 Direct Method.
14.5 Peak Dispersion and Tailing.
14.6 Chiral Stationary Phases and Their Characteristics.
14.7 Thermodynamic Considerations.
15 PREPARATIVE SEPARATIONS.
15.2 Equipment for Prep-LC Separation.
15.3 Isocratic Elution.
15.4 Severely Overloaded Separation.
15.5 Gradient Elution.
15.6 Production-Scale Separation.
16 SAMPLE PREPARATION.
16.2 Types of Samples.
16.3 Preliminary Processing of Solid and Semi-Solid Samples.
16.4 Sample Preparation for Liquid Samples.
16.5 Liquid-Liquid Extraction.
16.6 Solid-Phase Extraction (SPE).
16.7 Membrane Techniques in Sample Preparation.
16.8 Sample Preparation Methods for Solid Samples.
16.10 Sample Preparation for Biochromatography.
16.11 Sample Preparation for LC-MS.
16.12 Derivatization in HPLC.
17.2 Prevention of Problems.
17.3 Problem-Isolation Strategies.
17.4 Common Symptoms of HPLC Problems.
17.5 Troubleshooting Tables.
APPENDIX I. PROPERTIES OF HPLC SOLVENTS.
I.1 Solvent-Detector Compatibility.
I.1.1 UV Detection.
I.1.2 RI Detection.
I.1.3 MS Detection.
I.2 Solvent Polarity and Selectivity.
I.3 Solvent Safety.
APPENDIX II. PREPARING BUFFERED MOBILE PHASES.
II.1 Sequence of Operations.
II.2 Recipes for Some Commonly Used Buffers.
Joseph J. Kirkland, PhD, is Vice President of Research and Development for Advanced Materials Technology, Inc., and coauthor of Introduction to Modern Liquid Chromatography, Second Edition, Practical HPLC Method Development, Second Edition, and Modern Size-Exclusion Liquid Chromatography, Second Edition, all published by Wiley.
John W. Dolan, PhD, is a Principal at LC Resources. He is author of the popular "LC Troubleshooting" column in LCGC magazine and coauthor with Lloyd Snyder of Troubleshooting LC Systems and High-Performance Gradient Elution.
"This third edition is highly cross-referenced, so as to allow
the reader to follow up on topics of special interest, or to
clarify questions that may arise during reading. The third edition
of Introduction to Modern Liquid Chromatography will continue to be
the HPLC reference book for thousands of readers, either
experienced workers who may wish to explore topics of his/her
choice, or find an answer to specific problems, or beginners who
would like to understand and know the possibilities offered by
technique." (Chemistry Journals, 11 April 2011)
"This classic text on liquid chromatography has been thoroughly updated through the addition of information on modern instrumentation, columns, and troubleshooting. It is a valuable resource for practicing chromatographers at all levels.." (Anal Bioanal Chem, 2011)
"In summary, I would strongly recommend this book for anyone working with LC and LC/MS. It is a finely crafted introduction that adequately covers nearly every aspect of the science. The emphasis on basic principles and practical aspects ensures that it will be a useful reference for any years to come." (American Society for Mass Spectrometry, 21 Januay 2011)
"The text is illustrated with many figures and tables originating from authors' own work or taken from the literature . . . both groups of readers will find in this book plenty of information and inspiration." (Journal of Separation Science, 1 June 2010)
"Following their highly successful second edition (1979), which appeared more than 30 years ago, Snyder (LC Resources) and Kirkland (Advanced Materials Technology) have teamed with Dolan (LC Resources) and additional collaborators to provide an excellent update of their earlier work." (CHOICE, July 2010)
"It is difficult in these times to ever call a scientific book a "bargain", but this truly is. The wealth of information contained in these almost 1000 pages is invaluable. The book is comprehensive, eminently readable and approachable, and highly useful for both the skilled chromatographer and those new to the technique. Everyone using a liquid chromatographic instrument would benefit from owning a copy." (JACS, 2010)
"It's current, clearly-indexed, well-referenced, and comprehensive. The inclusion of John Dolan as author has significantly expanded the sections on troubleshooting, and additional expert contributors have enhanced the coverage of the specialist chapters." - Bruce Hamilton posted on the Chromatography Forum
Hoboken, NJ —November 20, 2009—Wiley-Blackwell, the scientific, technical, medical and scholarly publishing business of John Wiley & Sons, Inc. (NYSE: JWa), (NYSE: JWb), have announced the publication of Introduction to Modern Liquid Chromatography, 3rd Edition, by Lloyd R. Snyder, Joseph J. Kirkland, and John W. Dolan.
The book provides an in-depth explanation of how high-performance liquid chromatography (HPLC), the most commonly used analytical technique in biochemistry, is performed. The text covers the necessary materials involved in the process, as well as its possible applications. The book’s easy-to-read format is designed to be accessible to all HPLC users, from novices to experts.
The popularity of HPLC stems from its ability to separate a large variety of analytes, including organics, inorganics, and biomaterials, with low to high molecular weights and with different degrees of polarity, hydrophobicity, acidity and ionization. The development of highly sophisticated HPLC procedures has provided a sensitivity that allows investigators to accomplish important research in a wide variety of areas. The vast majority of biomedical and environmental analyses are currently performed by HPLC and it is the premier analytical technique in the chemistry field.
Widely referred to as "the Bible of HPLC", the previous edition has become a ubiquitous reference guide. The new edition strives to be more accessible to students, making it not only a reference volume, but also a learning tool. The practical HPLC knowledge included is intended to integrate questions of “what to do” and “why” into a single book, so as to satisfy readers at multiple levels from beginner to expert.
The new edition features the latest HPLC applications and technologies, including chiral compound separations and bioseparations, as well as an update of HPLC computer software and technology. This text presents a comprehensive survey of HPLC methods and applications written by practicing scientists for researchers and students of analytical chemistry and separation science and professionals at all degree levels using liquid chromatography.
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