Chromatography Books

Book SynopsisChromatography is a technique for analyzing or separating mixtures. The first edition of Chromatography: Concepts and Contrasts, published in 1988, was one of the first books to discuss all the different types of chromatography under one cover and is still very popular today.Table of ContentsPreface to Second Edition. Acknowledgments. Preface to the First Edition. Symbols, Abbreviations, and Acronyms. 1 Impact of Industrial and Government Regulatory Practices on Analytical Chromatography. 1.1 Locus of Chromatography in Chemical Industry. 1.2 Governmental Organizations. 1.3 Nongovernmental Agencies. 1.4 Standards, Calibration, and NIST. 1.5 USP and Other Pharmacopoeias. 1.6 International Guidelines for Analytical Laboratories. 1.7 Final Comments. References. 2 Introduction to Chromatography. 2.1 Brief History. 2.2 Definitions and Classifications. 2.3 Summary. References. 3 Band Broadening and Kinetics. 3.1 Configurations of the Stationary Phase. 3.2 Rate Theory. References. 4 Physical Forces and Interactions. 4.1 Intermolecular and Interionic Forces. 4.2 Size Exclusion—Molecular Sieving. 4.3 Some Models. References. 5 Optimization and the Achievement of Separation. 5.1 Kinetics and Zone Broadening. 5.2 Thermodynamics and Zone Migration. 5.2 Achievement of Separation. 5.4 Optimization of Separations. References. 6 Comparisons Between Chromatographic Modes. 6.1 Gas Chromatography Compared to Liquid Chromatography. 6.2 Supercritical Fluids and Supercritical Fluid Chromatography. 6.3 Reduced Parameters. 6.4 Columnar and Planar Configurations. References. 7 Gas Chromatography. 7.1 Early History, Theories, and Classifications. 7.2 Instrumentation for Capillary GC. 7.3 Instrumentation for Packed-Column GC. 7.4 Stationary Phase. 7.5 Temperature Effects. 7.6 Special Topics. 7.7 Summary and Evaluation. References. 8 Liquid Chromatography in Columns. 8.1 Introductory Classifications. 8.2 Classification of HPLC Modes. 8.3 Instrumentation. 8.4 Reversed-Phase Method Development and Optimization. 8.5 RP-HPLC Alternatives for the Pharmaceutical Industry. 8.6 Preparative LC. 8.7 Special Topics. 8.8 Summary and Evaluation. References. 9 Quantitation: Detectors and Methods. 9.1 Detectors. 9.2 Data Acquisition and Processing. 9.3 Quantitative Analysis. References. 10 Chromatography with Mass Spectral Detection (GC/MS and LC/MS). 10.1 Basics of Mass Spectrometry. 10.2 Gas ChromatographyrMass Spectrometry. 10.3 Liquid ChromatographyrMass Spectrometry. 10.4 Other Hyphenated Methods. 10.5 Summary. References. 11 Liquid Chromatography on Plane Surfaces. 11.1 Paper Chromatography. 11.2 Thin-Layer Chromatography. 11.3 Other Topics. 11.4 Literature Summary and Applications. References. 12 Qualitative Analysis. 12.1 Retention Parameters. 12.2 Other Methods of Qualitative Analysis. References. 13 Capillary Electrophoresis and Capillary Electrochromatography 365 13.1 Principles of Electrophoresis. 13.2 Zone Electrophoresis. 13.3 Capillary Electrophoresis. 13.4 Capillary Electrochromatography. References. 14 Sample Preparation. 14.1 Extraction. 14.2 Dialysis. 14.3 Derivatization. References. 15 Special Applications. 15.1 Multidimensional Chromatography. 15.2 Biological Applications. 15.3 Chiral Separations. 15.4 Other Topics. References. 16 Selection of a Method. 16.1 Methods of Attack. 16.2 The Internet. 16.3 Experimental Approach. 16.4 Summary. References. Some Internet Web Sites of Interest to Chromatographers. Appendix A ICH Glossary. Appendix B. Index.

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Book SynopsisThis revision brings the reader completely up to date on the evolving methods associated with increasingly more complex sample types analyzed using high-performance liquid chromatography, or HPLC.Table of ContentsGetting Started. Basics of Separation. Detection Sensitivity and Selectivity. Sample Preparation. The Column. Non-Ionic Samples: Reversed- and Normal-Phase HPLC. Ionic Samples: Reversed-Phase, Ion-Pair, and Ion-Exchange HPLC. Gradient Elution. Systematic Approach to the Reversed-Phase Separation of Regular Samples. Computer-Assisted Method Development. Biochemical Samples: Proteins, Nucleic Acids, Carbohydrates, and Related Compounds. Chiral Separations. Preparative HPLC Separation. Quantitation (Including Trace Analysis). Completing the Method: Validation and Transfer. Appendices. Index.

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Book SynopsisIn the arena of new drug development, the rate of sample generation far exceeds the rate of sample analysis. LC/MS is an analytical tool that helps the researcher select the most promising sample for scrutiny, accelerating the discovery of new drugs. This book is the first to describe in detail the procedures and benefits of LC/MS applications.Trade Review"…a comprehensive primer and will appeal to laboratory scientists and instructors in the pharmaceutical field…" (Analytical Chemistry, November 2002) "...describes...applications in each phase of drug development...provides perspective on changes in strategies for pharmaceutical analysis..." (SciTech Book News, Vol. 26, No. 2, June 2002) "...useful not only for students and scholars of analytical chemistry, but also for managers and other scientists...another fine addition to the Wiley-InterScience Series on Mass Spectrometry, it should be in the collections of all research libraries." (The Chemist, Summer 2003)Table of ContentsPreface ix Acknowledgments xi 1. Introduction 1 Emerging Analytical Needs 1 Integration of LC/MS into Drug Development 3 Partnerships and Acceptance 6 Overview 10 2. Drug Development Overview 11 Analysis Perspectives 11 The Four Stages of Drug Development 12 Drug Discovery 14 Preclinical Development 15 Clinical Development 16 Manufacturing 17 3. Accelerated Drug Development 19 Accelerated Development Strategies 20 Quantitative and Qualitative Process Elements 20 Quantitative Process Pipeline 24 Qualitative Process Pipeline 25 Motivating Factors 27 Analysis Opportunities for Accelerated Development 28 Full-Time Equivalent 28 Sample Throughput Model 29 Elimination Model 29 Rate-Determining Event Model 31 Accelerated Development Perspectives 33 4. LC/MS Development 34 The Elements of LC/MS Application 34 HPLC 35 Mass Spectrometry 35 LC/MS Interface 36 LC/MS Growth 38 5. Strategies 41 Standard Methods 43 Template Structure Identification 46 Databases 49 Screening 50 Integration 53 Miniaturization 55 Parallel Processing 56 Visualization 58 Automation 61 Summary 63 6. LC/MS Applications 65 Drug Discovery 65 Proteomics 68 Protein Expression Profiling 70 Quantitation 76 Glycoprotein Mapping 78 Natural Products Dereplication 83 Lead Identification Screening 88 Bioaffinity Screening 89 Combinatorial Library Screening 92 Open-Access LC/MS 96 Structure Confirmation 97 High Throughput 100 Purification 102 Combinatorial Mixture Screening 103 In Vivo Drug Screening 106 Pharmacokinetics 109 In Vitro Drug Screening 115 Metabolic Stability Screening 118 Membrane Permeability 119 Drug-Drug Interaction 121 Metabolite Identification 122 Preclinical Development 123 Metabolite Identification 125 Impurity Identification 132 Degradant Identification 140 Clinical Development 145 Quantitative Bioanalysis—Selected Ion Monitoring 148 Quantitative Bioanalysis—Selected Reaction Monitoring 152 Quantitative Bioanalysis—Automated Solid-Phase Extraction 156 Quantitative Bioanalysis—Automated On-Line Extraction 162 Metabolite Identification 165 Degradant Identification 168 Manufacturing 171 Impurity Identification Using Data-Dependent Analysis 173 Peptide Mapping in Quality Control 176 Patent Protection 178 7. Future Applications and Prospects 183 Workstations 183 Multidimensional Analysis 186 Miniaturization 187 Information Management 189 Strategic Outsourcing 190 Summary 191 8. Perspectives on the Future Growth of LC/MS 192 9. Conclusions 195 Glossary 197 References 205 Index 235

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Book SynopsisDealing with the principles of calibration--both the theoretical and mathematical constructs which relate features of calibration equations to the physical phenomena that affect instruments and samples used on generating information.Table of ContentsPrinciples of Calibration. Calibration Practice. Prediction. Appendices. Index.

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Book SynopsisA comprehensive manual for the analyst (or chromatographer) for evaluating and using the various tandem systems obtained by combining different methods of chromatography and spectroscopy. It introduces the reader to the different separation techniques that can be combined with spectroscopic techniques.Table of ContentsPartial table of contents: INTRODUCTION TO TANDEM SYSTEMS. Identification Techniques for Tandem Use. Interface Conduits. GAS CHROMATOGRAPHY TANDEM SYSTEMS. Gas Chromatography IR Spectroscopy (GC/IR) Tandem Systems. Gas Chromatography/Atomic Spectroscopy (GC/AS) Tandem Systems. LIQUID CHROMATOGRAPHY TANDEM SYSTEMS. LC/IR Tandem Systems. Liquid Chromatography/Atomic Spectroscopy (LC/AS) Tandem Systems. OTHER TANDEM SYSTEMS. Thin Layer Chromatography/Spectroscopy Tandem Systems. Electrophoresis/Spectroscopy Tandem Systems. Index.

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Book SynopsisFocusing on what has been one of the driving forces behind the development of lab-on-a-chip devices, Separation Methods in Microanalytical Systems explores the implementation, realization, and operation of separation techniques and related complex workflows on microfabricated devices. The book details the design, manufacture, and integration of diverse components needed to perform an entire analytical procedure on a single miniaturized device. The content applies to a diversity of disciplines including chemical analysis, biomedical diagnostics, environmental monitoring, and drug discovery.Separation Methods in Microanalytical Systems lays its theoretical background in a way that scientists from varied disciplines can approach. The book describes factors that influence the performance of separation, such as microfluidic handling, sample pre-treatment, and detection. It also conveys fabrication and material issues, design challenges, and practical considerations. Trade Review“This is just what I have been looking for. To my knowledge it’s the first time that anyone has put together a definitive book on the subject... The editors have done an excellent job in ensuring that the authors keep to their brief and do not cover data or examples give by other authors, but [still] have allowed the authors their individual styles... it is [of] great value, a book every researcher and student should have.”— P. Myers, in Chromatographia, 2006, vol. 63Table of ContentsAnalytical Microsystems: A Bird’s Eye View. Microfluidics: Some Basics. Microfabrication and Integration. New Tools: Scalar Imaging, Velocimetry, and Simulation. Transport Modes: Realizations and Practical Considerations. Pressure-Driven Separation Methods on a Chip. Transverse Transport in Microsystems: Theory and Applications. Electro-Driven Separation Methods on Chips. Gas Chromatography on Microchips. Sample Preparation on Microchips. Detection on Microchips: Principles, Challenges, Hyphenation, and Integration. Analytical Applications on Microchips. Index

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Book SynopsisDriven by the widespread growth of proteomic practices, protein separation techniques have been refined to minimize variability, optimize particular applications, and adapt to user preferences in the analysis of proteins. Separation Methods in Proteomics provides a comprehensive examination of all major separation techniques for proteomics research. Written as a compilation of hands-on methods exemplified by the work of several recognized leaders in the field, this book may serve as a guide for selection of the optimal separation strategies to solve particular biological problems. Recent progress in the development of robust analytical techniques and instrumentation has created the need for good quality biological samples that are subject to analysis. Emphasizing the importance of sample preparation, the book explains how proteomes can be divided into smaller, less complicated subproteomes' for individual analysis. It also highlights several hybrid approaches that taTable of ContentsSample Preparation. Sample Prefractionation and Analyses. Applications of Electrophoresis in Proteomics. Applications of High-Performance Liquid Chromatography. Related Techniques.

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Book SynopsisTheAdvances in Chromatographyseriesprovides the most up-to-date information on a wide range of developments in chromatographic methods and applications. For more than five decades, scientists and researchers have relied upon this series to cover the state of the art in separation science. With contributions from among the leading researchers around the world, this respected series continues to present timely, cutting-edge reviews in the fields of bio-, analytical, organic, polymer, and pharmaceutical chemistry. With contributions from leading authorities, this is an enriching guide for analytical, organic, inorganic, clinical, and physical chemists; chromatographers; biochemists and biotechnologists; scientists in Academia, government, hospitals and industry in both research and quality control. This is Volume 27 originally published in 1987.Table of ContentsPhysicochemical and Analytical Aspects of the Adsorption Phenomena, HPLC in Endocrinology, Chiral Stationary Phases for the Direct LC Separation of Enantiomers, The Use of Modified Silica Gels in TLC and HPTLC, Micellar Liquid Chromatography, Derivatization in Liquid Chromatography, Analytical High-Performance Affinity Chromatography, Characterization of Unsaturated Aliphatic Compounds by GC/Mass Spectrometry.

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Book SynopsisTheAdvances in Chromatographyseriesprovides the most up-to-date information on a wide range of developments in chromatographic methods and applications. For more than five decades, scientists and researchers have relied upon this series to cover the state of the art in separation science. With contributions from among the leading researchers around the world, this respected series continues to present timely, cutting-edge reviews in the fields of bio-, analytical, organic, polymer, and pharmaceutical chemistry. With contributions from leading authorities, this is an enriching guide for analytical, organic, inorganic, clinical, and physical chemists; chromatographers; biochemists and biotechnologists; scientists in Academia, government, hospitals and industry in both research and quality control. This is Volume 30 and looks at Selectivity and Retention, originally published in 1989.Table of ContentsMobile and Stationary Phases for Supercritical Fluid Chromatography, Polymer-based Packing Materials for Reversed-Phase Liquid Chromatography, Retention Behavior of Large Polycyclic Armoatic Hydrocarbons in Reversed-Phase Liquid Chromatography, Miniaturisation in High-Performance Liquid Chromatography, Sources of Errors in the Densitometric Evaluation of Thin-Layer Separations with Special regard to Nonlinear problems, Electronic Scanning for the Densitometric Analysis of Flat-bed Separations

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Book SynopsisTheAdvances in Chromatographyseriesprovides the most up-to-date information on a wide range of developments in chromatographic methods and applications. For more than five decades, scientists and researchers have relied upon this series to cover the state of the art in separation science. With contributions from among the leading researchers around the world, this respected series continues to present timely, cutting-edge reviews in the fields of bio-, analytical, organic, polymer, and pharmaceutical chemistry. With contributions from leading authorities, this is an enriching guide for analytical, organic, inorganic, clinical, and physical chemists; chromatographers; biochemists and biotechnologists; scientists in Academia, government, hospitals and industry in both research and quality control. This is Volume 32 originally published in 1991.Table of ContentsPorous Graphitic Carbon in Biomedical Applications, Tryptic Mapping by Reserved Phase Liquid Chromatography, Determination of Dissolved Gases in Water by Gas Chromatography, Separation of Polar Lipid Classes into their Molecular Species Components by Planr and Column Liquid Chromatography, The Use of Chromatography in Forensic Science, HPLC of Explosives Materials.

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Book SynopsisThis work introduces scientists of all disciplines to the chromatographic process and how it functions. The basic principles of chromatographic separation and specific chromatographic procedures, including gas, liquid and thin-layer chromatography, are covered. For each separation method the book details its characteristics, the instrumentation required, the procedures necessary for effective use, areas of application and examples of its use.;This work is intended for analytical chemists, laboratory technicians, and upper-level undergraduate and graduate students in analytical chemistry or separation science courses.Trade Review"Excellent discussions and practical advice are provided for the selection of stationary and mobile phases, as well as the exact type of chromatography needed to accomplish a separation. "---Analytical Chemistry News & Features ". . .a very readable and. . .informative book which is highly recommended for any scientist who needs to use separation techniques as part of their work but is not a separations expert. "---Bioseparation ". . .a[n]. . .instructive presentation of basic intermolecular forces and processes playing a substantial role in understanding the selectivity and resolution of separations, and a nice broad set of practical examples of applications. "---Journal of Chromatography ATable of ContentsThe chromatographic separation; the mechanism of retention; peak dispersion; qualitative analysis; quantitative analysis. Part 1 Gas chromatography: the gas chromatograph; gas chromatography detectors; gas chromatography columns; gas chromatography applications; the liquid chromatograph; liquid chromatography detectors; liquid chromatography columns; liquid chromatography applications. Part 2 Thin layer chromatography: TLC apparatus; thin-layer chromatography techniques.

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Book SynopsisHandbook of Chromatography: Analysis of Lipids provides a valuable review of state-of-the-art applications of chromatographic techniques (TLC, GC, HPLC) and other analytical techniques. Much of this volume is devoted to applications of HPLC (including supercritical fluid chromatography) in the analysis of lipids such as fatty acids, oxygenated fatty acids, enantiomeric acyl- and alkylglycerols, and lipoproteins. The handbook also provides extensive coverage of applications of combinations of various chromatographic techniques used in the analysis of ozonides, anacardic acids, glycerophospholipids, products of lipolysis, artifacts and contaminants in edible fats, acylated proteins, non-caloric lipids, lipophilic vitamins, acyl-Coenzyme A thioesters, dolichols, mycolic acids, technical fats and fat products, and liposomes. Handbook of Chromatography: Analysis of Lipids will be a useful reference for oil chemists, biochemists, fat science technologists, and other scieTable of Contents: Obtaining and Handling Biological Materials and Prefractionating Extracts for Lipid Analysis. Analysis of Lipids by Planar Chromatography. Imaging Plate System for Radio Luminographic Detection of Lipids on Thin-Layer Plates. High Performance Liquid Chromatography as a Tool for the Lipid Chemist and Biochemist. High Performance Liquid Chromatography of Fatty Acids. Analysis of Lipids by On-Line Coupled Liquid Chromatography-Gas Chromatography. Supercritical Fluid Chromatographic Analysis of Lipids. High Performance Liquid Chromatography of Oxygenated Fatty Acids Including Enantiomer Separation. High Performance Liquid Chromatography of Lipoproteins. High Performance Liquid Chromatography of Acylglycerols and Alkylglycerols. Gas Chromatography of Triacylglycerols and Other Lipids in Packed Columns. Gas Chromatography of Fatty Acids and Acylglycerols in Capillary Columns. Radio-Gas Chromatography of Lipids. Ozonides and Ozonolysis of Lipids. Anacardic Acids. Glycerophospholipids. Artifacts, Contaminants and Autoxidation Products of Edible Fats and Oils. Acylated Proteins: Identification of the Attached Fatty Acids and Their Linkages. Non-Caloric Lipids. Lipophilic Vitamins. Acyl-CoA Thioesters. Dolichols and Dolichyl Derivatives. Mycolic Acids. Technical Fats and Oils and Products Derived Therefrom. Analysis of Natural Fats and Oils by Ammonia Negative Ion Tandem Mass Spectrometry. Characterization of Liposomes. Phospholipids from Pulmonary Surfactant and Amniotic Fluid. Large-Scale Chromatography of Lipids. Products of Lipolysis. Index. FEATURES:

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Book SynopsisPreparative Layer Chromatography explains how this method is used for separating large quantities of mixtures containing a wide variety of important compounds. It offers a broad review of preparative layer chromatography (PLC) applications and adaptable working procedures for microseparations involving organic, inorganic, and organometallic compounds. The book contains theoretical background, chemical principles, and relevance of preparative layer chromatography (PLC) to a wide range of applications, particularly in the study of pharmaceuticals and biochemistry. Written by many of the best known and most knowledgeable specialists in the field, the chapters describe all the necessary techniques, current procedures, and superior strategies for selecting the most suitable eluents and designing application-specific PLC systems based on the data being sought. They provide comprehensive instructions, surrounding issues, and suggestions for optimizing optional working techniques withiTrade Review"...A valuable and important supplement to the existing vast chromatographic literature, [this book] demonstrates the potential of planar chromatography for separation and isolation of pure compounds, even from very complex mixtures."-Journal of Liquid Chromatography, August 2006"The contributor[s']...experience integrated in the monograph forms a good basis for the readers."-Instrumentation Science & Technology, August 2006"The [first] eight chapters provide sound theoretical and methodological foundations of PLC. Numerous applications of PLC are reviewed in the second section, based on extensive literature. ...The application reviews provide numerous examples of solving experimental difficulties for the separation of complex mixtures."-Preparative Biochemistry & Biotechnology, August 2006"The book is quite well produced and has a large number of illustrations . . . this volume is a worthy addition to the PLC literature, and a good place to start for the novice." – I.D. Wilson, in Chromatographia, January 2008, Vol. 67, No. 1/2Table of ContentsIntroduction. Adsorption Planar Chromatography in the Non-linear Range: Selected Drawbacks and Selected Guidelines. Sorbents and Precoated Layers in PLC. Selection and Optimization of the Mobile Phase for PLC. Sample Application and Development of Layers. On Methodical Possibilities of the Horizontal Chambers in PLC. Location of Separated Zones by Use of Visualization Reagents, UV Absorbance on Layers Containing a Fluorescent Indicator, and Densitometry. Additional Detection Methods for Separated Zones and Recovery of Substances from the Layer. Medical Applications of PLC. PLC of Hydrophobic Vitamins. PLC of Natural Mixtures. Application of PLC to Lipids. The Use of PLC for Separation of Natural Pigments. Application of PLC to Inorganics and Organometallics. PLC in a Clean-up and Group Fractionaction of Geochemical Samples: A Review of the Commonly Applied Techniques. The Use of PLC for Isolation and Identification of Unknown Compounds from the Frankincense Resin: Strategies for Finding Marker Substances.

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Book SynopsisThin layer chromatography (TLC) is well suited for performing enantioseparations for research as well as larger-scale applications. A fast, inexpensive, and versatile separation technique, there are many practical considerations that contribute to its effectiveness. Thin Layer Chromatography in Chiral Separations and Analysis is the first book to focus solely on the theory, capabilities, and applications of TLC for direct and indirect enantioseparations.The first part of the book examines the fundamental principles of chirality and TLC. It describes the necessary materials, laboratory equipment, procedures, and strategies for the separation, quantification, isolation, and analysis of chiral compounds. The second part evaluates the real-world enantioseparations and densitometric analyses. Emphasizing pharmaceutical applications, the book discusses chiral separation mechanisms and methods for analyzing the chiral purity of diastereoisomers, amino acids, beta-blockers, and NSAIDS. Topics also include commercial stationary phases and chiral modifiers of mobile phases. Thin Layer Chromatography in Chiral Separations and Analysis presents a unified perspective of theory and experimental details underlying the collective developments in the field. The book offers scientists in a variety of disciplines and levels of expertise a complete guide to understanding the current and potential applications of chiral TLC. Table of ContentsIntroduction. Chirality. Commercial Stationary Phases for Enantioseparations. Planar Chromatographic Enantioseparations on Non-commercial CSPs. Planar Chromatographic Enantioseparations on Non-Commercial CCPs. Chiral Modifiers of Mobile Phases. An Overview of the Chiral Separation Mechanisms. Separation of Diastereoisomers by means of TLC. Selected Bottlenecks of Densitometric Detection with Chiral Analytes. Chirality of Pharmaceutical Product Racemates. Chiral Separation of the Selected β-blockers. Chiral Separation of Aminoacid Enantiomers. Chiral Separation of NSAIDs. Determination of Components in Selected Drug Racemates. Chiral Separations using Marfey’s Reagent.

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Book SynopsisCapillary electrochromatography (CEC) is a new and exciting hybrid separation technique that seeks to exploit the combined advantages of both capillary electrophoresis (high efficiencies) and HPLC (mobile and stationary phase selectivity). It is a technique with tremendous potential, especially in the pharmaceutical and biomedical fields. This is the first book to be devoted to the topic and presents reviews by the world leaders in the field on the theory and development of the technique and current and potential future applications. Capillary Electrochromatography provides an excellent introduction to the field for graduates and professionals in industry and academia with an interest in separation science.Trade Review"... a compact and informative review of the principles and practice of this novel and exciting technique ... the book will be very useful to readers new to the field as it is both up-to-date and fully referenced ..." * Chemistry & Industry, Issue 1, 7 January 2002, p 19 *"... an excellent introduction to anyone about to enter the field ... useful and highly informative ..." * Angewandte Chemie, International Edition, Vol 41, No 3, 1 February 2002 *Table of ContentsAn Introduction to Capillary Electrochromatography; The Capillary Electrochromatograph; Supports and Stationary Phases for Capillary Electrochromatography; Electroosmosis in Complex Media: Bulk Transport in CEC; Capillary Electrochromatography with Open Tubular Columns (OTCEC); Capillary Electrochromatography/Mass Spectrometry; Pharmaceutical Applications of Capillary Electrochromatography; Capillary Electrochromatography in Natural Product Research; Subject Index.

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Book SynopsisCyclodextrins can form complexes with a wide variety of organic and inorganic compounds, a property which can prove useful when trying to separate complex mixtures. This book provides an up-to-date and critical evaluation of the application of cyclodextrins in many fields of chromatography (including thin layer, gas-liquid, high performance liquid and supercritical fluid chromatography; capillary electrophoresis; and isotacophoresis). Whilst mainly practical in nature, the book also looks briefly at the theoretical background for the various techniques. Any professional working with chromatography will welcome this unique book as both a practical compilation of methods and a source of reference to the literature regarding the use and impact of cyclodextrins in chromatography.Trade ReviewA good addition to all libraries of pharmaceutical and agrochemical industries and also academic institutions, drug regulatory agencies and environmental agencies. * Biomedical Chromatography, May 2004 (Hassan Y Aboul-Enein) *"... the book is well written and produced, and it can be recommended to anyone interested in an overview of the impact of CD complexes on analytical chromatography ..." * Trends in Analytical Chemistry, Vol 22, No 9, 2003 *"... valuable for anyone working with CDs in chromatographic methods ... the book is well written as a monograph that provides a good review of applications of CDs in chromatographic and electromigration methods. " * Analytical and Bioanalytical Chemistry, 2004, 379 *Table of ContentsPrinciples of Chromatography; Chemistry and Physicochemistry of Cyclodextrins; Use of Cyclodextrins in Gas-Liquid Chromatography; Supercritical Fluid Chromatography; Use of Cyclodextrins in Liquid Chromatography; Use of Cyclodextrins in Electrophoretic Techniques; Subject Index.

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Book SynopsisThis result-oriented primer provides a practical guide to key approaches, methodologies and tools for designing, modelling and simulating chromatographic processes. With an emphasis on real-world applications, this is a must-have for practitioners and researchers working in chemical, biochemical, food and pharmaceutical engineering.Table of Contents1. An approach to modeling chromatographic processes; 2. Linear chromatography: the Russian Lego; 3. Non-linear chromatography: equilibrium theory; 4. Fluid-solid phase equilibria; 5. Mass transfer; 6. Hydrodynamics of chromatographic columns; 7. Simulating chromatographic columns; 8. Counter-current systems; 9. Presentation of chromatographic modes and their optimization; 10. Addressing a few industrial problems; 11. Conclusion.

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Book SynopsisPreparative Chromatography for Separation of Proteins addresses a wide range of the most current modeling techniques, strategies, and case studies of industrial separation of proteins and peptides to aid in the efficiency and efficacy of this broadly-used technique in the purification of biopharmaceuticals.Table of ContentsList of Contributors xv Series Preface xix Preface xxi 1 Model-Based Preparative Chromatography Process Development in the QbD Paradigm 1Arne Staby, Satinder Ahuja, and Anurag S. Rathore 1.1 Motivation 1 1.2 Regulatory Context of Preparative Chromatography and Process Understanding 1 1.3 Application of Mathematical Modeling to Preparative Chromatography 6 Acknowledgements 8 References 8 2 Adsorption Isotherms: Fundamentals and Modeling Aspects 11Jørgen M. Mollerup 2.1 Introduction 11 2.2 Definitions 12 2.3 The Solute Velocity Model 14 2.4 Introduction to the Theory of Equilibrium 17 2.5 Association Equilibria 21 2.6 The Classical Adsorption Isotherm 24 2.7 The Classical Ion Exchange Adsorption Isotherm 26 2.8 Hydrophobic Adsorbents, HIC and RPC 38 2.9 Protein–Protein Association and Adsorption Isotherms 47 2.10 The Adsorption Isotherm of a GLP-1 Analogue 51 2.11 Concluding Remarks 59 Appendix 2.A Classical Thermodynamics 60 References 77 3 Simulation of Process Chromatography 81Bernt Nilsson and Niklas Andersson 3.1 Introduction 81 3.2 Simulation-Based Prediction of Chromatographic Processes 82 3.3 Numerical Methods for Chromatography Simulation 94 3.4 Simulation-Based Model Calibration and Parameter Estimation 96 3.5 Simulation-Based Parametric Analysis of Chromatography 97 3.6 Simulation-Based Optimization of Process Chromatography 101 3.7 Summary 106 Acknowledgement 107 References 108 4 Simplified Methods Based on Mechanistic Models for Understanding and Designing Chromatography Processes for Proteins and Other Biological Products 111Noriko Yoshimoto and Shuichi Yamamoto 4.1 Introduction 111 4.2 HETP and Related Variables in Isocratic Elution 114 4.3 Linear Gradient Elution (LGE) 120 4.4 Applications of the Model 130 4.5 Summary 145 Appendix 4.A Mechanistic Models for Chromatography 149 Appendix 4.B Distribution Coefficient and Binding Sites [20- 149 References 152 5 Development of Continuous Capture Steps in Bioprocess Applications 159Frank Riske and Tom Ransohoff 5.1 Introduction 159 5.2 Economic Rationale for Continuous Processing 160 5.3 Developing a Continuous Capture Step 162 5.4 The Operation of MCC Systems 165 5.5 Modeling MCC Operation 167 5.6 Processing Bioreactor Feeds on a Capture MCC 169 5.7 The Future of MCC 171 References 172 6 Computational Modeling in Bioprocess Development 177Francis Insaidoo, Suvrajit Banerjee, David Roush, and Steven Cramer 6.1 Linkage of Chromatographic Thermodynamics (Affinity, Kinetics, and Capacity) 177 6.2 Binding Maps and Coarse-Grained Modeling 180 6.3 QSPR for Either Classification or Quantification Prediction 188 6.4 All Atoms MD Simulations for Free Solution Studies and Surfaces 192 6.5 Ensemble Average and Comparison of Binding of Different Proteins in Chromatographic Systems 204 6.6 Antibody Homology Modeling and Bioprocess Development 205 6.7 Summary of Gaps and Future State 209 Acknowledgment 212 References 212 7 Chromatographic Scale-Up on a Volume Basis 227Ernst B. Hansen 7.1 Introduction 227 7.2 Theoretical Background 229 7.3 Proof of Concept Examples 232 7.4 Design Applications: How to Scale up from Development Data 233 7.5 Discussion 240 7.6 Recommendations 242 References 245 8 Scaling Up Industrial Protein Chromatography: Where Modeling Can Help 247Chris Antoniou, Justin McCue, Venkatesh Natarajan, Jörg Thömmes, and Qing Sarah Yuan 8.1 Introduction 247 8.2 Packing Quality: Why and How to Ensure Column Packing Quality Across Scales 248 8.3 Process Equipment: Using CFD to Describe Effects of Equipment Design on Column Performance 257 8.4 Long-Term Column Operation at Scale: Impact of Resin Lot-to-Lot Variability 264 8.5 Closing Remarks 265 References 265 9 High-Throughput Process Development 269Silvia M. Pirrung and Marcel Ottens 9.1 Introduction to High-Throughput Process Development in Chromatography 269 9.2 Process Development Approaches 271 9.3 Case Descriptions 279 9.4 Future Directions 286 References 286 10 High-Throughput Column Chromatography Performed on Liquid Handling Stations 293Patrick Diederich and Jürgen Hubbuch 10.1 Introduction 293 10.2 Chromatographic Methods 299 10.3 Results and Discussion 300 10.4 Summary and Conclusion 328 Acknowledgements 329 References 330 11 Lab-Scale Development of Chromatography Processes 333Hong Li, Jennifer Pollard, and Nihal Tugcu 11.1 Introduction 333 11.2 Methodology and Proposed Workflow 336 11.3 Conclusions 377 Acknowledgments 377 References 377 12 Problem Solving by Using Modeling 381Martin P. Breil, Søren S. Frederiksen, Steffen Kidal, and Thomas B. Hansen 12.1 Introduction 381 12.2 Theory 382 12.3 Materials and Methods 385 12.4 Determination of Model Parameters 385 12.5 Optimization In Silico 388 12.6 Extra-Column Effects 390 Abbreviations 397 References 398 13 Modeling Preparative Cation Exchange Chromatography of Monoclonal Antibodies 399Stephen Hunt, Trent Larsen, and Robert J. Todd 13.1 Introduction 399 13.2 Theory 401 13.3 Model Development 403 13.4 Model Application 413 13.5 Conclusions 424 Nomenclature 425 Greek letters 425 References 426 14 Model-Based Process Development in the Biopharmaceutical Industry 429Lars Sejergaard, Haleh Ahmadian, Thomas B. Hansen, Arne Staby, and Ernst B. Hansen 14.1 Introduction 429 14.2 Molecule—FVIII 430 14.3 Overall Process Design 431 14.4 Use of Mathematical Models to Ensure Process Robustness 432 14.5 Experimental Design of Verification Experiments 435 14.6 Discussion 438 14.7 Conclusion 439 Acknowledgements 439 Appendix 14.A Practical MATLAB Guideline to SEC 439 Appendix 14.B Derivation of Models Used for Column Simulations 449 References 455 15 Dynamic Simulations as a Predictive Model for a Multicolumn Chromatography Separation 457Marc Bisschops and Mark Brower 15.1 Introduction 457 15.2 BioSMB Technology 459 15.3 Protein A Model Description 460 15.4 Fitting the Model Parameters 463 15.5 Case Studies 464 15.6 Results for Continuous Chromatography 469 15.7 Conclusions 475 References 476 16 Chemometrics Applications in Process Chromatography 479Anurag S. Rathore and Sumit K. Singh 16.1 Introduction 479 16.2 Data Types 480 16.3 Data Preprocessing 481 16.4 Modeling Approaches 485 16.5 Case Studies of Use of Chemometrics in Process Chromatography 490 16.6 Guidance on Performing MVDA 495 References 497 17 Mid-UV Protein Absorption Spectra and Partial Least Squares Regression as Screening and PAT Tool 501Sigrid Hansen, Nina Brestrich, Arne Staby, and Jürgen Hubbuch 17.1 Introduction 501 17.2 Mid-UV Protein Absorption Spectra and Partial Least Squares Regression 503 17.3 Spectral Similarity and Prediction Precision 511 17.4 Application as a Screening Tool: Analytics for High-Throughput Experiments 516 17.5 Application as a PAT Tool: Selective In-line Quantification and Real-Time Pooling 518 17.6 Case Studies 523 17.7 Conclusion and Outlook 532 References 532 18 Recent Progress Toward More Sustainable Biomanufacturing: Practical Considerations for Use in the Downstream Processing of Protein Products 537Milton T. W. Hearn 18.1 Introduction 537 18.2 The Impact of Individualized Unit Operations versus Integrated Platform Technologies on Sustainable Manufacturing 543 18.3 Implications of Recycling and Reuse in Downstream Processing of Protein Products Generated by Biotechnological Processes: General Considerations 549 18.4 Metrics and Valorization Methods to Assess Process Sustainability 553 18.5 Conclusions and Perspectives 573 Acknowledgment 573 References 574 Index 583

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Book SynopsisPreparative Enantioselective Chromatography Geoffrey B Cox The development of chiral liquid chromatography, facilitating the straightforward separation of enantiomers, was a significant advance in chromatography, leading to widespread application in analytical chemistry.Trade Review"With such a good coverage of the topics and a generous collection of references, the book is a pleasure to read and refer to. The book has struck almost exactly the right note in attractiveness of purpose and method of presentation. The book has a distinctly readable quality. Both the editor and the authors are to be commended for sharing their insights and experience in such an easily accessed volume. The entire volume is lavishly illustrated with tables, graphs and drawings, the design and execution and placement of which are as perfect as the text material they illustrate." Current Engineering Practice 'The book is a delight to read.' 'Cox's book provides chemists and chemical engineers with valuable hints and advises. The authors are, in part, experienced practitioners in the industry and academics at the forefront of this field...at every stage, material is logically presented and easy to access.' 'In summary, this is an excellent compiled book with well-produced text' Gregor Mann, Organic Process Research and Development, September 2005 "This book represents a valuable source of information on the multifaceted challenges one may encounter when performing preparative chromatographic enantiomer seperations, and large-scale chromatography in general ... [this] account will be warmly welcomed by clientele from both industry and academia, as it offers insightful and enjoyable reading, even to the expert." Analytical and Bioanalytical ChemistryTable of ContentsContributors. Preface. 1. Chiral Chromatography in Support of Pharmaceutical Process Research (Christopher J. Welch). 2. Introduction to Preparative Chromatography (Geoffrey B. Cox). 3. Chiral Stationary Phases for Preparative Enantioselective Chromatography (Eric Francotte). 4. Method Development for Preparative Enantioselective Chromatography (Christina Suteu). 5. Scaling-Up of Preparative Chromatographic Enantiomer Separations (Jules Dingenen). 6. Steady-State Recycling and Its use in Chiral Separations (Charles M. Grill and Laurence M. Miller). 7. Simulated Moving Bed and Related Techniques (Luís S. Pais, Vera G. Mata and Alírio E. Rodrigues). 8. Preparative-Scale Supercritical Fluid Chromatography (Manon S. Villeneuve and Luke A. Miller). 9. Equipment for Preparative and Large Size Enantioselective Chromatography (Henri Colin, Olivier Ludemann-Hombourger and Félicie Denet). 10. Case Study in Production-Scale Multicolumn Continuous Chromatography (Michel Hamende). 11. Contract Manufacturing and Outsourcing Considerations (Olivier Dapremont). Appendix: Advanced Concepts. Index.

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Book SynopsisIon-Pair Chromatography (IPC) is a rapidly evolving method for difficult analyses of organic and inorganic ions and ionogenic, neutral, and zwitterionic compounds. The possibilities for this technology continue to grow as novel ion-pair reagents and strategies are introduced at an accelerated level. Compensating for a dearth in the literature, Ion-Pair Chromatography and Related Techniques details the basics and the evolution of this established and easily tunable technique and explains its influence on similar methods.Theoretical modeling to applicationProviding a thorough exploration of the multiplicity of interactions involved in an IPC system, this book emphasizes the progress from theoretical modeling to application. It explores the practical potential of IPC in the life science, medicine, pharmacology, forensic, food, and environmental sectors. It examines the upgrade of column technology and instrumentation to imTrade Review"… provides a broad coverage of the subject of IPC with regard to theoretical features, the parameters influencing the results and the applications. The reader will find a discussion of all aspects of IPC, beginning with the theoretical basis of this technique and its retention mechanism. The author introduces to the reader all the issues connected with stationary phases, ionpair reagents, organic modifiers, the pH of the eluent, temperature, and various detection techniques which may be used in IPC. One can also find much practical advice on how to start with IPC and how to improve results by the use of IPC."—Analytical and Bioanalytical Chemistry, April 2012Table of ContentsIntroduction. Electrolyte Solutions and Historical Concept of Ion-Pairing. Retention Modeling as Function of Mobile Phase Composition. Modeling of Retention as a Function of Analyte Nature. Stationary Phases. Developments in Column Technology and Fast IPC. Ion Pairing Reagents. Organic Modifiers. Role of Eluent pH in IPC. Temperature. Special IPC Modes and Variations. Detection and Combination. Examples of Applications. IPC versus Competitive Techniques. Ion-Pairing in Different Analytical Techniques. Non-Separative Applications of IPC. Conclusions and Future Research Needs.

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Book SynopsisThis book covers the various methods of validation for high performance liquid chromatography - mass spectrometry (LC-MS) analytical techniques and their applications in the analysis of a broad range of drugs in modern clinical pharmacology.Table of ContentsInternal standards for quantitative LC-MS bioanalysis.- Method development, validation and sample analysis for regulated quantitative bioanalysis using LC-MS/MS.- Impact of sampling paper/cards on bioanalytical quantitation via dried blood spots by liquid chromatography - mass spectrometry.- Highly sensitive pharmaceutical and clinical analysis using selective solid-phase extraction coupled to microflow liquid chromatography and isotope-dilution mass spectrometry.- Pitfalls of LC-MS/MS in the clinical laboratory.- Therapeutic drug monitoring to support clinical pharmacogenomics.- Liquid chromatography - mass spectrometry for the determination of antidepressants and some of their major metabolites in human biological matrices.- The analysis of antipsychotic drugs in human biosamples by LC-MS.- Therapeutic drug monitoring of targeted anticancer therapy - tyrosine kinase inhibitors and selective oestrogen receptor modulators: a clinical pharmacology laboratory perspective.- Applications of mass spectrometry in analyses of steroid hormones.- Liquid chromatography - mass spectrometric analysis of tropane alkaloids in mammalian samples: techniques and applications.- Analysis of illicit drugs in human biological samples by LC-MSn.- Use of matrix assisted laser desorption/ionization imaging mass spectrometry (MALDI-IMS) in the development of novel small molecule drugs.- A planar integrated micro mass spectrometer.

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Book SynopsisUsed routinely in drug control laboratories, forensic laboratories, and as a research tool, thin layer chromatography (TLC) plays an important role in pharmaceutical drug analyses. It requires less complicated or expensive equipment than other techniques, and has the ability to be performed under field conditions. Filling the need for an up-to-date, complete reference, Thin Layer Chromatography in Drug Analysis covers the most important methods in pharmaceutical applications of TLC, namely, analysis of bulk drug material and pharmaceutical formulations, degradation studies, analysis of biological samples, optimization of the separation of drug classes, and lipophilicity estimation.The book is divided into two parts. Part I is devoted to general topics related to TLC in the context of drug analysis, including the chemical basis of TLC, sample pleparation, the optimization of layers and mobile phases, detection and quantification, analysis of ionic compounds, and separaTable of ContentsPart I Theory of Thin Layer Chromatography in Context of Pharmaceutical Analysis. Overview of Drug Analysis and Structure of the Book. Chemistry of Drugs and Its Influence on Retention. Sorbents and Layers Used in Drug Analysis. Optimization of Mobile Phase Composition. Chromatographic Analysis of Ionic Drugs. Ionic Liquid Additives to Mobile Phases. Chromatographic Analysis of Chiral Drugs. Chambers, Sample Application, and New Devices in the Chromatography of Drugs. 2D Planar Chromatography. Quantitative Detection of Drugs by Densitometry and Video Scanning. Statistical Evaluation and Validation of Quantitative Methods of Drug Analysis. Detection and Identification in TLC Drug Analysis. TLC Determination of Drug Lipophilicity. Screening of Substandard and Fake Drugs in Underdeveloped Countries by TLC. Part II Planar Chromatography of Particular Drug Groups. TLC of Antidepressants and Neuroleptics. TLC of Anxiolytics and Sedatives. TLC of Morphine Analogs. TLC of Nonopioid Analgesics, Anti-Inflammatics, and Antimigraine Drugs. TLC of Ergot Alkaloid Derivatives. Thin-Layer Chromatography of Anesthetics. TLC of Psychostimulants. TLC of Antiepileptics. TLC of Alzheimer’s Disease Medicines. TLC of Antiparkinsonians. Thin-Layer Chromatography of Cardiac Drugs. TLC of Antihypertensive and Antihypotensive Drugs. TLC of Beta-Blockers and Beta-Agonists. TLC of Antithrombotics. TLC of Antihyperlipidemics. TLC of Spasmolytics. TLC of Mucolytic, Antitussive, and Antiasthmatic Drugs. TLC of Neuromuscular Blockers. TLC of Antiulcers. TLC of Antiemetic Drugs. TLC of Steroids and Analogs. TLC of Drugs Used in Obesity and Sexual Dysfunction Treatment. TLC of Prostaglandins. TLC of Diuretics. TLC of Antidiabetics. TLC of Antihistamines. TLC of Vitamins Including Nicotinic Acid Derivatives. TLC of Antiseptics. TLC of Sulfonamides. TLC of Quinolones. Thin-Layer Chromatography of Tuberculostatic Drugs. TLC of Antifungal and Antiprotozoal Drugs. TLC of β-Lactam Antibiotics. TLC of Other Antibiotics. Thin-Layer Chromatography of Antiviral Drugs. Thin-Layer Chromatography of Anticancer Drugs. Uncertainty Factors in the Enantioseparation of Chiral Drugs on Silica Gel Layers. Index.

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Book SynopsisIncreased environmental consciousness within the scientific community has spurred the search for environmentally friendly processes as alternatives to conventional organic solvents. In the past two decades, numerous advancesincluding the use of ionic liquidshave made it possible to develop substitutes for some toxic solvents. Ionic liquids are widely recognized as suitable for use in organic reactions and can also improve the control of product distribution, enhanced reactivity, ease of product recovery, catalyst immobilization, and recycling.Environmentally Friendly Syntheses Using Ionic Liquids presents the latest developments in the field. It also reviews the latest applications in a wide range of fields including biotechnology, nuclear science, medicine, pharmaceuticals, environmental science, and organic and inorganic chemistryall from the standpoint of green sustainable chemistry.Growing interest in the field of ionic liquids will define newer and uTable of ContentsIntroduction. Organic Synthesis Using an Ionic Liquid as a Reaction Medium. Biocatalysis in Ionic Liquids. Deep Eutectic Solvents: Promising Solvents and Nonsolvent Solutions for Biocatalysis. Synthesis and Applications of Ionic Liquids as Pharmaceutical Materials. Ionic Liquids as Versatile Media for Chemical Reactions.

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Book SynopsisAdvanced Separations by Specialized Sorbents opens a new window into sorbent materials, presenting fundamental principles for their syntheses and adsorption properties. The book presents advanced techniques used to create specialized sorbents with a wide range of functions that can be used to enhance the separation and/or purification of useful bioactive compounds, heavy metals, dyes, and other substances. It discusses the most recent developments in the field of separation processes, covering specialized sorbents such as monolith cryogels, composite hydrogels, metal-impregnated ion exchangers, and molecularly imprinted polymers. The book provides a comprehensive discussion of the selectivity in separation processes by composite materials based on synthetic polymers/biopolymers and inorganic particles. It is a comprehensive resource for academic and research scientists as well as students interested in the preparation, characterization, and applicationTable of ContentsComposite Hydrogel Materials. Cryogels for Affinity Chromatography. Particulate/Cell Separations Using Macroporous Monolithic Matrices. Polysaccharide-Based Composite Hydrogels for Removal of Pollutants from Water. Iron Oxide Magnetic Composite Adsorbents for Heavy Metal Pollutant Removal. Biopolymers-Zeolites Composites as Biosorbents for Separation Processes. Metal-Impregnated Ion Exchanger for Selective Removal and Recovery of Trace Phosphate. Molecularly Imprinted Polymers for Water Polishing. Biopolymer-Based Sorbents for Metal Sorption. Mixed-Mode Sorbents in Solid-Phase Extraction. Interpenetrating Polymer Network Composite Hydrogels and Their Applications in Separation Processes. Toward Adaptive Self-Informed Membranes.

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Book SynopsisThis book provides a comprehensive overview of ionic liquid based separation techniques. The glimpse of thermodynamic predictive models along with global optimization techniques will help readers understand the separation techniques at molecular and macroscopic levels. Experimental and characterization techniques are coupled with model based predictions so as to provide multicomponent data for the scientific community. The models will focus more on the a-priori based predictions which gives higher emphasis on hydrogen-bonded systems. Particle Swarm Optimization (PSO) technique will also eventually help the readers to apply optimization technique to an extraction process. The overriding goal of this work is to provide pathways for leading engineers and researchers toward a clear understanding and firm grasp of the phase equilibria of Ionic Liquid systems.Table of Contents1. Introduction2. Liquid-liquid Equilibria: Experiments and Predictions by Gibb’s free energy models3. COSMO-SAC: A predictive model for calculating thermodynamic properties on a-priori basis4. Application of COSMO-SAC in complex phase behavior: Vapor-Liquid-Liquid Equilibria5. Modification in COSMO-SAC6. Particle Swarm Optimization and application to LLE7. Cuckoo Search Optimization and application to LLE

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Book SynopsisGas Chromatography: History, Methods and Applications focuses on the main applications of gas chromatography in clinical and forensic toxicology, mainly in the determination of drugs of abuse including the new psychoactive substances in several types of biological matrices. The authors go on to investigated the analysis of gaseous or volatile substances using sensor gas chromatography equipped with a semiconductor gas sensor detector. The simplicity, ease of handling, and high sensitivity of this method allow results to be obtained rapidly, which may provide valuable information for forensic diagnosis. This compilation addresses the way in which food adulteration practices are potentially harmful to human health and so food safety and authenticity constitute an important issue in food chemistry. The chemical composition of foodstuffs is an excellent indicator of quality, origin, authenticity and/or adulteration. The concluding study aims to determine the organic compounds of vinasse through gas chromatography-mass spectrometry GC-MS. Vinasse is a byproduct of ethanol and poses long-term risk to public health because of its persistent and toxic nature.Table of ContentsPreface; The Role of Gas Chromatography in Clinical and Forensic Toxicology; Application of Sensor Gas Chromatography in Forensic Medicine; Trends of Gas Chromatography-Mass Spectrometry Techniques in Food Authentication; Gas Chromatography-Mass Spectrometry Analysis of Sugarcane Vinasse; Index.

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Book SynopsisFor more than four decades, scientists and researchers have relied on the Advances in Chromatography series for the most up-to-date information on a wide range of developments in chromatographic methods and applications. Volume 44 of this authoritative series once again compiles the work of expert contributors in order to present timely and cutting-edge reviews on a variety of related topics.Each author's clear presentation of topics and vivid illustrations make the material in Advances in Chromatography: Volume 44 accessible and engaging to biochemists and analytical, organic, polymer, and pharmaceutical chemists at all levels of technical skill.Table of ContentsSeparations in Multiple-Channel Microchips. Temperature Effects in Liquid Chromatography. Lipophilicity Measurements by Liquid Chromatography. Concepts and Practice of Multidimensional High-Performance Liquid Chromatography. High-Performance Liquid Chromatography in the Pharmaceutical Industry: Application, Validation, and Regulatory Issues. The Use of Polysaccharide Phases in the Separation of Enantiomers. Chaotropic Effects in RP-HPLC. Chromatography of Difficult and Water-Insoluble Proteins with Organic Solvents.

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Book SynopsisChromatography is the collective term for a set of laboratory techniques for the separation of mixtures. It involves passing a mixture dissolved in a "mobile phase" through a stationary phase, which separates the analyte to be measured from other molecules in the mixture and allows it to be isolated. Chromatography may be preparative or analytical. The purpose of preparative chromatography is to separate the components of a mixture for further use (and is thus a form of purification). Analytical chromatography is done normally with smaller amounts of material and is for measuring the relative proportions of analytes in a mixture. This new and important book gathers the latest research from around the globe in the study of chomatography and herein highlights such topics as: analysis of veterinary drugs using chromatographic techniques, liquid chromatography for the determination of mycotoxins in foods, chromatography in the research of phenolic secondary metabolites, and others.

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Book SynopsisGas chromatography is widely used in applications involving food analysis. Typical applications pertain to the quantitative and/or qualitative analysis of food composition, natural products, food additives, and flavour and aroma components. Providing an up-to-date look at the significant advances in the technology, this book includes details on novel sample preparation processes; conventional, high-speed multidimensional gas chromatography systems, including preparative instrumentation; gas chromatography–olfactometry principles; and, finally, chemometrics principles and applications in food analysis. Aimed at providing the food researcher or analyst with detailed analytical information related to advanced gas chromatography technologies, this book is suitable for professionals and postgraduate students learning about the technique in the food industry and research.Table of ContentsHeadspace Sampling: An "Evergreen" Method in Constant Evolution to Characterize Food Flavors through their Volatile Fraction; Sample Preparation for the Gas Chromatography Analysis of Semi-volatiles and Non-volatile Compounds in Food Samples; Conventional Gas Chromatography: Basic Principles and Instrumental Aspects; Conventional Gas Chromatography: Mass Spectrometry Hyphenation and Applications in Food Analysis; High-speed Gas Chromatography: Basic Theory, General Principles, Practical Aspects and Food Analysis; Heart-cutting Two-dimensional Gas Chromatography; Comprehensive Two-dimensional Gas Chromatography; Multidimensional LC-GC; Gas Chromatography-Olfactometry: Principles, Practical Aspects and Applications in Food Analysis; Chemometrics: Basic Principles and Applications

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Book SynopsisHigh-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.Trade ReviewHigh-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.Table of ContentsA brief definition of high-temperature liquid chromatography; System set up for high temperature liquid chromatography; The heating system; Mobile phase considerations; Suitable stationary phases; Method development using temperature programming Analyte stability; Special hyphenation techniques using superheated water as a mobile phase; A critical outlook

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Book SynopsisThe concept of a metabolic profile was introduced in 1971, when gas chromatography demonstrated a range of compounds present in human samples. Now termed metabolomics, the field is still emerging, and chromatography remains an essential tool for determining metabolites in a living system. This is the first book to present the chromatographic techniques used in metabolomics in a fundamental way. Sample preparation and quality control are described in detail, and all forms of chromatography applied to metabolomics are included. The editors present guidelines on selecting the most appropriate methodology, making the book an accessible guide to anyone entering the field. Handling data and applications are also described. This is an essential handbook for any laboratory looking to embark on a metabolomics research programme and includes the fundamentals of chromatography alongside the latest developments in the field.Trade ReviewBook’s topic Chromatographic Methods in Metabolomics is the 19th book in the series “RSC Chromatography Monographs”. This monograph focuses on descriptions of important experimental aspects of metabolomics studies that use chromatography methods, including gas chromatography (GC) and liquid chromatography (LC), and other types of separation, including capillary electrophoresis (CE) and microchip technology. Detailed discussions are included of sample collection and preparation, data processing, and examples of applications of the techniques described. The editors state that the aim of the book was to give the reader an overview of chromatographic and electromigration techniques, and to provide practical guidelines for selecting the appropriate technique. Contents The book is 232 pages long and contains nine chapters. Chapter 1 introduces, in brief, the experimental workflow and analytical methods used in metabolomics studies. Chapter 2 describes the methods and techniques used in collecting and preparing a range of sample types, including mammalian biofluids, faecal samples, cells, and tissues. Techniques covered include quenching of materials, homogenisation, extraction, sample fractionation, and derivatisation for GC and LC. Chapter 3 discusses the mass spectrometry (MS) instruments used, including descriptions of the interfaces used to couple MSto GC, LC and CE, and comparisons of the mass analysers used. This chapter also discusses metabolite identification and fluxomics. Chapters 4–6 introduce the separation techniques used in metabolomics. Chapter 4 describes liquid chromatography techniques, including HPLC, UPLC, capillary LC, multi-dimensional LC, turbulent flow LC and supercritical fluid chromatography. Modes of liquid chromatography are also discussed. Chapter 5 introduces the techniques of GC–MS and GC×GC–MS, and includes discussions of sample collection for volatiles analysis and metabolite identification. Chapter 6 introduces capillary electromigration, with specific focus on CE, and includes descriptions of the interfaces used to couple CE to MS. Chapter 7 introduces innovative recent work on microchip fabrication and applications, including use of microchips for sample preparation, LC and CE. Chapter 8 discusses data handling, with emphasis on peak detection, alignment and deconvolution followed by normalisation and quantification. Chapter 9 describes specific applications of the techniques discussed in the previous chapters, with a focus on global profiling or targeted analysis of lipids or polar metabolites. Comparison with the existing literature This monograph adds to the growing number of recent textbooks and review articles focussing on the tools used in metabolomics and on the applications of metabolomics in biological sciences. Most other textbooks and review articles provide a detailed overview of either a broader (metabolomics in general) or narrower (e.g. GC–MS) range of metabolomics techniques and applications, with some including detailed procedures for the topics discussed. This monograph is unique in providing the first focused description of a specific range of chromatographic and separation techniques, thus enabling the reader to research each topic and choose appropriate techniques by consulting a single source. Critical assessment This is a general textbook on the metabolomics applications of chromatographic and separation methods, including GC, LC and CE as well as the emerging field of microfluidics and microchip fabrication. The contributing authors are global leaders in their field, with five of nine chapters written by Finnish authors. Each chapter provides a descriptive overview of a topic, and includes information on the important aspects researchers should consider. This approach achieves the editorial objective of enabling the reader to understand the principles and to make decisions regarding the appropriate techniques to use in their research. In several chapters, a greater diversity and number of references describing the research of global leaders in the field would have enabled the reader to research the experimental procedures in more depth. Some topics, namely quality control and metabolite information, are discussed in multiple chapters, and providing more focused and expansive chapters on these subjects would have been beneficial. Summary Chromatographic Methods in Metabolomics is a monograph providing overviews of separation techniques used in metabolomic studies, and of associated sample collection, sample preparation and data processing. Each chapter is written by an expert in the field, and all chapters are written with clarity and focus. The book is a single-source reference work, enabling the reader to understand the important aspects of each topic and providing the information necessary for the reader to investigate the chapter topics in more depth. The work would be an important addition to the bookshelf of under-graduate, post-graduate and post-doctoral scientists starting a research role applying metabolomics. -- Warwick B. Dunn * Analytical and Bioanalytical Chemistry - # Springer-Verlag Berlin Heidelberg 2013 *Tuulia Hyotylainen and Susanne Wiedmer have written and edited an excellent book on a very bold subject area that holds something for everyone. They have managed to get key workers to write chapters, which they have blended in with their own so that the book gives information suitable for a novice but also sufficient detail for an expert. I liked the way the editors have tackled the subjects full on and have written the very difficult chapters themselves and what could be more challenging in this respect than sample preparation. This they address in the first real chapter after the introduction. Of course it is not a full, all-encompassing description, you could write a whole book on this, but they have done an excellent job of condensing the topic to get the basic points across and extending these points in greater detail for the critical issues. An expert will read this and find holes in some of the methods described but they may also find new points that they have not considered. A novice will find the whole chapter very interesting; I did, but if I have a single complaint I would have liked to have seen more on the quality control of samples. An early chapter is on detection in metabolomics and of course the detector is the mass spectrometer. Hyotylainen and Wiedmer have avoided the easy trap of describing each type of mass spectrometer in detail; instead they describe the advantages and disadvantages of the various types and ionisation sources that become important for understanding the later chapters. In the chapter on techniques the authors have done a great job in bringing together the vast array of chromatographic techniques that are now available, assuming you have sufficient funds to buy them. Again another excellent chapter that describes the usefulness of the various techniques in metabolomics as opposed to describing the full technical details of each technique. I think a difficult chapter to have written is the one on gas chromatography in metabolomics. The scope for GCmetabolomics, as the authors point out, may not be as extensive as metabolomics in the liquid phase as it is limited to the analysis of small volatile metabolites but it can still provide excellent data for fingerprinting and profiling. The authors have tackled this well and although they do, as you might expect repeat areas already covered, they go into new details on GCxGC. The description of capillary electromigration and microchip technology work well together. The chapter on microchips contains many nice coloured photographs but it was rather like reading the menu at a Michelin Star restaurant without eating the food. The chapter describes many chips and platforms but, although much has been written about research using microchips in the last twenty years, the number of real commercial chips capable of providing real data is very small. This chapter does not provide the data we are all looking for but maybe like other papers on the subject it is a pointer to the future. If there is a chapter that is too short and does not provide sufficient information it is the one on data handing. As the authors point out, it is not possible to give a complete account of data handling that is required in this area, but I was left wanting to know more about the different techniques that are being used today, their limitations and how, using more and more powerful and new visual displays and virtual reality displays, we are moving forward. The last chapter is on applications. I was pleased that this was a small chapter. It is all too easy to do a literature search and print pages and pages of applications. The authors have not done this, they have carefully selected application areas, described key points and given sufficient references for the reader to find the extensive papers associated with each area. As you may have gathered, I liked this book and recommend it for both your own library, for your research lab and as a good book to recommend to anyone starting out in this very extensive but exciting field. -- Peter Myers, University of Liverpool * Chromatographia, 2014, 77:1405–1406 *"Tuulia Hyotylainen and Susanne Wiedmer have written and edited an excellent book on a very bold subject area that holds something for everyone. They have managed to get key workers to write chapters, which they have blended in with their own so that the book gives information suitable for a novice but also sufficient detail for an expert...I liked this book and recommend it for both your own library, for your research lab and as a good book to recommend to anyone starting out in this very extensive but exciting field." -- Peter Myers, University of Liverpool * Chromatographia *Table of ContentsIntroduction; Sample Preparation; Liquid Chromatographic Methods in Metabolomics; Gas Chromatographic Methods in Metabolomics; Capillary electromigration techniques in metabolomics; Miniaturized Techniques in Metabolomics; Quality Control; Data Handling; Applications

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Book SynopsisGuiding chromatographers working in regulated industries and helping them to validate their chromatography data systems to meet data integrity, business and regulatory needs. This book is a detailed look at the life cycle and documented evidence required to ensure a system is fit for purpose throughout the lifecycle. Initially providing the regulatory, data integrity and system life cycle requirements for computerised system validation, the book then develops into a guide on planning, specifying, managing risk, configuring and testing a chromatography data system before release. This is followed by operational aspects such as training, integration and IT support and finally retirement. All areas are discussed in detail with case studies and practical examples provided as appropriate. The book has been carefully written and is right up to date including recently released FDA data integrity guidance. It provides detailed guidance on good practice and expands on the first edition making it an invaluable addition to a chromatographer’s book shelf.Table of ContentsHow To Use This Book; What is a CDS and its Evolution; Laboratory Informatics and the Role of a CDS; Applicable GXP Regulations and Guidance; Concepts of Computer Validation; Understanding Life Cycles and SW Classification; CDS Data Integrity; CSV Risk Management: System Risk; Working Electronically; Specifying User and System Requirements; Controlling the Validation; System Selection; Auditing the Supplier; Negotiating the Contract and System Purchase; Planning the Installation; CSV Risk Management; Importance of the Traceability Matrix; Writing the Configuration Specification; Writing the Technical Specification; Installing and Integrating System Components; Designing the Test Suite; Writing Test Cases; Executing Test Scripts; User Training and System Documentation; IT Support; System Description; Defining CDS Raw Data and E-Records; Validation Summary Report; Integration in a Regulated Environment; User Account Management; Incident and Problem Management; Change Control and Configuration Management; On-Going IT Support; Conducting a Periodic Review; CDS Records Retention; System Retirement; Data Migration Options; Retrospective Validation

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Book SynopsisThe third edition of this popular work is revised to include the latest developments in this fast-changing field. Its interdisciplinary approach elegantly combines the chemistry and engineering to explore the fundamentals and optimization processes involved.Trade Review"I would not hesitate to recommend it to anyone working in this field." Chromatographia "Overall the coverage is a bit uneven - nevertheless the volume does compile some useful material... In conclusion, this is a comprehensive reference text, which should find its way into the libraries of all companies who are serious about process scale preparative chromatography, whether internally or via outsource contracts." Organic Process Research and Development "This special volume is essential for chemists and engineers working in chemical and pharmaceutical industries, as well as for food technologies, due to the interdisciplinary nature of these preparative chromatographic processes." Advances in Food SciencesTable of ContentsPreface xv About the Editors xvii List of Abbreviations xix Notation xxiii 1 Introduction 1Henner Schmidt-Traub and Reinhard Ditz 1.1 Chromatography, Development, and Future Trends 1 1.2 Focus of the Book 4 1.3 Suggestions on How to Read this Book 4 References 6 2 Fundamentals and General Terminology 9Andreas Seidel-Morgenstern 2.1 Principles and Features of Chromatography 9 2.2 Analysis and Description of Chromatograms 13 2.2.1 Voidage and Porosity 13 2.2.2 Retention Times and Capacity Factors 16 2.2.3 Efficiency of Chromatographic Separations 17 2.2.4 Resolution 20 2.2.5 Pressure Drop 23 2.3 Mass Transfer and Fluid Dynamics 25 2.3.1 Principles of Mass Transfer 25 2.3.2 Fluid Distribution in the Column 27 2.3.3 Packing Nonidealities 28 2.3.4 Extra-Column Effects 29 2.4 Equilibrium Thermodynamics 29 2.4.1 Definition of Isotherms 29 2.4.2 Models of Isotherms 31 2.4.2.1 Single-Component Isotherms 31 2.4.2.2 Multicomponent Isotherms Based on the Langmuir Model 33 2.4.2.3 Competitive Isotherms Based on the Ideal Adsorbed Solution Theory 34 2.4.2.4 Steric Mass Action Isotherms 37 2.4.3 Relation Between Isotherms and Band Shapes 38 2.5 Column Overloading and Operating Modes 44 2.5.1 Overloading Strategies 44 2.5.2 Beyond Isocratic Batch Elution 45 References 46 3 Stationary Phases 49Michael Schulte 3.1 Survey of Packings and Stationary Phases 49 3.2 Inorganic Sorbents 50 3.2.1 Activated Carbons 50 3.2.2 Synthetic Zeolites 54 3.2.3 Porous Oxides: Silica, Activated Alumina, Titania, Zirconia, and Magnesia 54 3.2.4 Silica 55 3.2.4.1 Surface Chemistry 57 3.2.4.2 Mass Loadability 59 3.2.5 Diatomaceous Earth 59 3.2.6 Reversed Phase Silicas 60 3.2.6.1 Silanization of the Silica Surface 60 3.2.6.2 Silanization 60 3.2.6.3 Starting Silanes 61 3.2.6.4 Parent Porous Silica 61 3.2.6.5 Reaction and Reaction Conditions 62 3.2.6.6 Endcapping 62 3.2.6.7 Chromatographic Characterization of Reversed Phase Silicas 63 3.2.6.8 Chromatographic Performance 63 3.2.6.9 Hydrophobic Properties Retention Factor (Amount of Organic Solvent for Elution), Selectivity 65 3.2.6.10 Shape Selectivity 65 3.2.6.11 Silanol Activity 67 3.2.6.12 Purity 68 3.2.6.13 Improved pH Stability Silica 68 3.2.7 Aluminum Oxide 69 3.2.8 Titanium Dioxide 70 3.2.9 Other Oxides 71 3.2.9.1 Magnesium Oxide 71 3.2.9.2 Zirconium Dioxide 71 3.2.10 Porous Glasses 72 3.3 Cross-Linked Organic Polymers 73 3.3.1 General Aspects 74 3.3.2 Hydrophobic Polymer Stationary Phases 77 3.3.3 Hydrophilic Polymer Stationary Phases 78 3.3.4 Ion Exchange (IEX) 79 3.3.4.1 Optimization of Ion-Exchange Resins 81 3.3.5 Mixed Mode 88 3.3.6 Hydroxyapatite 88 3.3.7 Designed Adsorbents 91 3.3.7.1 Protein A Affinity Sorbents 91 3.3.7.2 Other IgG Receptor Proteins: Protein G and Protein L 96 3.3.7.3 Sorbents for Derivatized/Tagged Compounds: Immobilized Metal Affinity Chromatography (IMAC) 96 3.3.7.4 Other Tag-Based Affinity Sorbents 101 3.3.8 Customized Adsorbents 102 3.3.8.1 Low Molecular Weight Ligands 105 3.3.8.2 Natural Polymers (Proteins, Polynucleotides) 108 3.3.8.3 Artificial Polymers 111 3.4 Advective Chromatographic Materials 111 3.4.1 Adsorptive Membranes and Grafted-Polymer Membranes 114 3.4.2 Adsorptive Nonwovens 115 3.4.3 Fiber/Particle Composites 117 3.4.4 Area-Enhanced Fibers 117 3.4.5 Monolith 118 3.4.6 Chromatographic Materials for Larger Molecules 121 3.5 Chiral Stationary Phases 121 3.5.1 Cellulose- and Amylose-Based CSP 122 3.5.2 Antibiotic CSP 128 3.5.3 Cyclofructan-Based CSP 128 3.5.4 Synthetic Polymers 128 3.5.5 Targeted Selector Design 130 3.5.6 Further Developments 132 3.6 Properties of Packings and Their Relevance to Chromatographic Performance 132 3.6.1 Chemical and Physical Bulk Properties 132 3.6.2 Morphology 133 3.6.3 Particulate Adsorbents: Particle Size and Size Distribution 133 3.6.4 Pore Texture 134 3.6.5 Pore Structural Parameters 137 3.6.6 Comparative Rating of Columns 137 3.7 Sorbent Maintenance and Regeneration 138 3.7.1 Cleaning in Place (CIP) 138 3.7.2 CIP for IEX 140 3.7.3 CIP of Protein A Sorbents 140 3.7.4 Conditioning of Silica Surfaces 143 3.7.5 Sanitization in Place (SIP) 145 3.7.6 Column and Adsorbent Storage 145 References 146 4 Selection of Chromatographic Systems 159Michael Schulte 4.1 Definition of the Task 164 4.2 Mobile Phases for Liquid Chromatography 167 4.2.1 Stability 168 4.2.2 Safety Concerns 172 4.2.3 Operating Conditions 172 4.2.4 Aqueous Buffer Systems 176 4.3 Adsorbent and Phase Systems 178 4.3.1 Choice of Phase System Dependent on Solubility 178 4.3.2 Improving Loadability for Poor Solubilities 180 4.3.3 Dependency of Solubility on Sample Purity 183 4.3.4 Generic Gradients for Fast Separations 184 4.4 Criteria for Choosing Normal Phase Systems 184 4.4.1 Retention in NP Systems 186 4.4.2 Solvent Strength in Liquid–Solid Chromatography 188 4.4.3 Pilot Technique Thin-Layer Chromatography Using the PRISMA Model 190 4.4.3.1 Step (1): Solvent Strength Adjustment 199 4.4.3.2 Step (2): Optimization of Selectivity 199 4.4.3.3 Step (3): Final Optimization of the Solvent Strength 200 4.4.3.4 Step (4): Determination of the Optimum Mobile Phase Composition 200 4.4.4 Strategy for an Industrial Preparative Chromatography Laboratory 202 4.4.4.1 Standard Gradient Elution Method on Silica 203 4.4.4.2 Simplified Procedure 204 4.5 Criteria for Choosing Reversed Phase Systems 206 4.5.1 Retention and Selectivity in RP Systems 208 4.5.2 Gradient Elution for Small Amounts of Product on RP Columns 212 4.5.3 Rigorous Optimization for Isocratic Runs 213 4.5.4 Rigorous Optimization for Gradient Runs 217 4.5.5 Practical Recommendations 222 4.6 Criteria for Choosing CSP Systems 223 4.6.1 Suitability of Preparative CSP 223 4.6.2 Development of Enantioselectivity 224 4.6.3 Optimization of Separation Conditions 226 4.6.3.1 Determination of Racemate Solubility 226 4.6.3.2 Selection of Elution Order 226 4.6.3.3 Optimization of Mobile/Stationary Phase Composition, Including Temperature 226 4.6.3.4 Determination of Optimum Separation Step 227 4.6.4 Practical Recommendations 227 4.7 Downstream Processing of mAbs Using Protein A and IEX 231 4.8 Size-Exclusion Chromatography (SEC) 236 4.9 Overall Chromatographic System Optimization 237 4.9.1 Conflicts During Optimization of Chromatographic Systems 237 4.9.2 Stationary Phase Gradients 241 References 246 5 Process Concepts 251Malte Kaspereit and Henner Schmidt-Traub 5.1 Discontinuous Processes 252 5.1.1 Isocratic Operation 252 5.1.2 Gradient Chromatography 253 5.1.3 Closed-Loop Recycling Chromatography 256 5.1.4 Steady-State Recycling Chromatography (SSRC) 258 5.1.5 Flip-Flop Chromatography 259 5.1.6 Chromatographic Batch Reactors 260 5.2 Continuous Processes 261 5.2.1 Column Switching Chromatography 262 5.2.2 Annular Chromatography 262 5.2.3 Multiport Switching Valve Chromatography (ISEP/CSEP) 263 5.2.4 Isocratic Simulated Moving Bed (SMB) Chromatography 264 5.2.5 SMB Chromatography with Variable Process Conditions 268 5.2.5.1 Varicol 269 5.2.5.2 PowerFeed 270 5.2.5.3 Partial-Feed, Partial-Discard, and Fractionation-Feedback Concepts 271 5.2.5.4 Improved/Intermittent SMB (iSMB) 271 5.2.5.5 Modicon 273 5.2.5.6 FF-SMB 273 5.2.6 Gradient SMB Chromatography 274 5.2.7 Supercritical Fluid Chromatography (SFC) 275 5.2.7.1 Supercritical Batch Chromatography 276 5.2.7.2 Supercritical SMB processes 277 5.2.8 Multicomponent Separations 277 5.2.9 Multicolumn Systems for Bioseparations 278 5.2.9.1 Multicolumn Capture Chromatography (MCC) 279 5.2.9.2 Multicolumn Countercurrent Solvent Gradient Purification (MCSGP) 286 5.2.10 Countercurrent Chromatographic Reactors 288 5.2.10.1 SMB Reactor 288 5.2.10.2 SMB Reactors with Distributed Functionalities 290 5.3 Choice of Process Concepts 292 5.3.1 Scale 292 5.3.2 Range of k’ 292 5.3.3 Number of Fractions 293 5.3.4 Example 1: Lab Scale; Two Fractions 293 5.3.5 Example 2: Lab Scale; Three or More Fractions 294 5.3.6 Example 3: Production Scale; Wide Range of k’ 296 5.3.7 Example 4: Production Scale; Two Main Fractions 297 5.3.8 Example 5: Production Scale; Three Fractions 298 5.3.9 Example 6: Production Scale; Multistage Process 300 References 302 6 Modeling of Chromatographic Processes 311Andreas Seidel-Morgenstern 6.1 Introduction 311 6.2 Models for Single Chromatographic Columns 311 6.2.1 Equilibrium Stage Models 312 6.2.1.1 Discontinuous Model According to Craig 313 6.2.1.2 Continuous Model According to Martin and Synge 315 6.2.2 Derivation of Continuous Mass Balance Equations 316 6.2.2.1 Mass Balance Equations 318 6.2.2.2 Convective Transport 320 6.2.2.3 Axial Dispersion 320 6.2.2.4 Intraparticle Diffusion 321 6.2.2.5 Mass Transfer Between Phases 321 6.2.2.6 Finite Rates of Adsorption and Desorption 322 6.2.2.7 Adsorption Equilibria 323 6.2.3 Equilibrium Model of Chromatography 323 6.2.4 Models with One Band Broadening Effect 329 6.2.4.1 Equilibrium Dispersion Model 329 6.2.4.2 Finite Adsorption Rate Model 331 6.2.5 Continuous Lumped Rate Models 331 6.2.5.1 Transport Dispersion Models 332 6.2.5.2 Lumped Finite Adsorption Rate Model 333 6.2.6 General Rate Models 333 6.2.7 Initial and Boundary Conditions of the Column 335 6.2.8 Dimensionless Model Equations 336 6.2.9 Comparison of Different Model Approaches 338 6.3 Including Effects Outside the Columns 343 6.3.1 Experimental Setup and Simulation Flow Sheet 343 6.3.2 Modeling Extra-Column Equipment 345 6.3.2.1 Injection System 345 6.3.2.2 Piping 345 6.3.2.3 Detector 345 6.4 Calculation Methods and Software 346 6.4.1 Analytical Solutions 346 6.4.2 Numerical Solution Methods 346 6.4.2.1 Discretization 346 6.4.2.2 General Solution Procedure and Software 349 References 350 7 Determination of Model Parameters 355Andreas Seidel-Morgenstern, Andreas Jupke, and Henner Schmidt-Traub 7.1 Parameter Classes for Chromatographic Separations 355 7.1.1 Design Parameters 355 7.1.2 Operating Parameters 356 7.1.3 Model Parameters 356 7.2 Concept to Determine Model Parameters 357 7.3 Detectors and Parameter Estimation 359 7.3.1 Calibration of Detectors 359 7.3.2 Parameter Estimation 360 7.3.3 Evaluation of Chromatograms 362 7.4 Determination of Packing Parameters 363 7.4.1 Void Fraction and Porosity of the Packing 363 7.4.2 Axial Dispersion 363 7.4.3 Pressure Drop 364 7.5 Adsorption Isotherms 365 7.5.1 Determination of Adsorption Isotherms 365 7.5.2 Estimation of Henry Coefficients 365 7.5.3 Static Isotherm Determination Methods 370 7.5.3.1 Batch Method 370 7.5.3.2 Adsorption–Desorption Method 370 7.5.3.3 Circulation Method 371 7.5.4 Dynamic Methods 371 7.5.5 Frontal Analysis 371 7.5.6 Analysis of Dispersed Fronts 378 7.5.7 Peak Maximum Method 380 7.5.8 Minor Disturbance/Perturbation Method 380 7.5.9 Curve Fitting of the Chromatogram 383 7.5.10 Data Analysis and Accuracy 384 7.6 Mass Transfer Kinetics 386 7.6.1 Correlations 386 7.6.2 Application of Method of Moments 388 7.7 Plant Parameters 389 7.8 Experimental Validation of Column Models and Model Parameters 391 7.8.1 Batch Chromatography 391 7.8.2 Simulated Moving Bed Chromatography 394 7.8.2.1 Model Formulation and Parameters 394 7.8.2.2 Experimental Validation 400 References 404 8 Process Design and Optimization 409Andreas Jupke, Andreas Biselli, Malte Kaspereit,Martin Leipnitz, and Henner Schmidt-Traub 8.1 Basic Principles and Definitions 409 8.1.1 Performance, Costs, and Objective Functions 409 8.1.1.1 Performance Criteria 410 8.1.1.2 Economic Criteria 411 8.1.1.3 Objective Functions 412 8.1.2 Degrees of Freedom 413 8.1.2.1 Categories of Parameters 413 8.1.2.2 Dimensionless Operating and Design Parameters 414 8.1.3 Scaling by Dimensionless Parameters 418 8.1.3.1 Influence of Different HETP Coefficients for Every Component 419 8.1.3.2 Influence of Feed Concentration 420 8.1.3.3 Examples for a Single-Column Batch Chromatography 421 8.1.3.4 Examples for SMB Processes 424 8.2 Batch Chromatography 426 8.2.1 Fractionation Mode (Cut Strategy) 426 8.2.2 Design and Optimization of Batch Chromatographic Columns 427 8.2.2.1 Process Performance Depending on Number of Stages and Loading Factor 427 8.2.2.2 Design and Optimization Strategy 432 8.2.2.3 Other Strategies 436 8.3 Recycling Chromatography 437 8.3.1 Design of Steady-State Recycling Chromatography 437 8.3.2 Scale-Up of Closed-Loop Recycling Chromatography 440 8.4 Conventional Isocratic SMB Chromatography 445 8.4.1 Considerations to Optimal Concentration Profiles in SMB Process 445 8.4.2 Process Design Based on TMB Models (Shortcut Methods) 446 8.4.2.1 Triangle Theory for an Ideal Model with Linear Isotherms 447 8.4.2.2 Triangle Theory for an Ideal Model with Nonlinear Isotherms 449 8.4.2.3 Shortcut to Apply the Triangle Theory on a System with Unknown Isotherms Assuming Langmuir Character 452 8.4.3 Process Design and Optimization Based on Rigorous SMB Models 455 8.4.3.1 Estimation of Operating Parameter 456 8.4.3.2 Optimization of Operating Parameters for Linear Isotherms Based on Process Understanding 457 8.4.3.3 Optimization of Operating Parameters for Nonlinear Isotherms Based on Process Understanding 458 8.4.3.4 Optimization of Design Parameters 460 8.5 Isocratic SMB Chromatography Under Variable Operating Conditions 465 8.5.1 Performance Comparison of Varicol and Conventional SMB 466 8.5.2 Performance Comparison of Varicol, PowerFeed, and Modicon with Conventional SMB 470 8.5.3 Performance Trends Applying SMB Concepts Under Variable Operating Conditions 475 8.6 Gradient SMB Chromatography 476 8.6.1 Step Gradient 476 8.6.2 Multicolumn Solvent Gradient Purification Process 482 8.7 Multicolumn Systems for Bioseparations 487 8.7.1 Design of Twin-Column Capture SMB 488 8.7.2 Modeling of Multicolumn Capture processes 490 References 493 9 Process Control 503Sebastian Engell and Achim Kienle 9.1 Standard Process Control 504 9.2 Advanced Process Control 504 9.2.1 Online Optimization of Batch Chromatography 505 9.2.2 Advanced Control of SMB Chromatography 507 9.2.2.1 Purity Control for SMB Processes 508 9.2.2.2 Direct Optimizing Control of SMB Processes 510 9.2.3 Advanced Parameter and State Estimation for SMB Processes 515 9.2.4 Adaptive Cycle-to-Cycle Control 517 9.2.5 Control of Coupled Simulated Moving Bed Processes for the Production of Pure Enantiomers 519 References 521 10 Chromatography Equipment: Engineering and Operation 525Henner Schmidt-Traub and Arthur Susanto 10.1 Challenges for Conceptual Process Design 525 10.1.1 Main Cost Factors for a Chromatographic System 527 10.1.2 Conceptual Process Design 528 10.1.2.1 A Case Study: Large-Scale Biotechnology Project 529 10.2 Engineering Challenges 533 10.2.1 Challenges Regarding Sanitary Design 535 10.2.2 Challenges During Acceptance Tests and Qualifications 539 10.3 Commercial Chromatography Columns 540 10.3.1 General Design 541 10.3.1.1 Manually Moved Piston 542 10.3.1.2 Electrically or Hydraulically Moved Piston 542 10.3.2 High- and Low-Pressure Columns 543 10.3.2.1 Chemical Compatibility 544 10.3.2.2 Frit Design 546 10.3.2.3 Special Aspects of Bioseparation 549 10.4 Commercial Chromatographic Systems 551 10.4.1 General Design Aspects: High-Pressure and Low-Pressure Systems 551 10.4.2 Material 553 10.4.3 Batch Low-Pressure Liquid Chromatographic (LPLC) Systems 553 10.4.3.1 Inlets 553 10.4.3.2 Valves to Control Flow Direction 555 10.4.3.3 Pumps 556 10.4.3.4 Pump- and Valve-Based and Gradient Formation 556 10.4.4 Batch High-Pressure Liquid Chromatography 558 10.4.4.1 General Layout 558 10.4.4.2 Inlets and Outlets 559 10.4.4.3 Pumps 559 10.4.4.4 Valves and Pipes 562 10.4.5 Continuous Systems: Simulated Moving Bed 563 10.4.5.1 General Layout 563 10.4.5.2 A Key Choice: The Recycling Strategy 565 10.4.5.3 Pumps, Inlets, and Outlets 566 10.4.5.4 Valves and Piping 566 10.4.6 Auxiliary Systems 567 10.4.6.1 Slurry Preparation Tank 567 10.4.6.2 Slurry Pumps and Packing Stations 568 10.4.6.3 Cranes and Transport Units 568 10.4.6.4 Filter Integrity Test 568 10.4.7 Detectors 569 10.5 Packing Methods 571 10.5.1 Column and Packing Methodology Selection 571 10.5.2 Slurry Preparation 572 10.5.3 Column Preparation 574 10.5.4 Flow Packing 575 10.5.5 Dynamic Axial Compression (DAC) Packing 577 10.5.6 Stall Packing 577 10.5.7 Combined Method (Stall+DAC) 578 10.5.8 Vacuum Packing 580 10.5.9 Vibration Packing 581 10.5.10 Column Equilibration 582 10.5.11 Column Testing and Storage 583 10.5.11.1 Test Systems 583 10.5.11.2 Hydrodynamic Properties and Column Efficiency 584 10.5.11.3 Column and Adsorbent Storage 585 10.6 Process Troubleshooting 585 10.6.1 Technical Failures 586 10.6.2 Loss of Performance 587 10.6.2.1 Pressure Increase 587 10.6.2.2 Loss of Column Efficiency 590 10.6.2.3 Variation of Elution Profile 591 10.6.2.4 Loss of Purity/Yield 592 10.6.3 Column Stability 592 10.7 Disposable Technology for Bioseparations 593 10.7.1 Prepacked Columns 596 10.7.2 Membrane Chromatography 597 References 599 Appendix A Data of Test Systems 601 A.1 EMD53986 601 A.2 Tröger’s Base 602 A.3 Glucose and Fructose 604 A.4 β-Phenethyl Acetate 606 References 607 Index 609

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Book SynopsisChromatography has been developed as a powerful and rapid technique for the separation of compounds with highly similar molecular characteristics, even from complicated matrices. Due to their excellent separation characteristics and Versatility, chromatographic methods have found growing acceptance and application in environmental protection for residue analysis in air, ground and surface waters, sewage, sludge, soil matrices, etc The book will be of interest to analytical chemists in legalisation and research and to analytical control specialists, as well as to researchers and students.Table of Contents1. Separation Strategies for Environmental Pollutants: Theory and Practice 2. Hydrocarbons and Hydrocarbon-Based Pollutants 3. Aromatic and Polyaromatic Pollutants 4. Pesticides

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Book SynopsisThe porphyrins, chlorophylls, bilins and related tetrapyrroles are vital for all living organisms. Natural and synthetic tetrapyrroles are used extensively in foods, cosmetics, biotechnology, pharmaceuticals, diagnostics and medicine. Methods for their separation and characterization therefore, have a very wide area of applications. Yet, there is a dearth of books dedicated to HPLC and HPLC/MS of tetrapyrroles. Lim addresses this problem admirably by providing practical HPLC and HPLC/MS protocols coupled with in-depth chromatographic and mass spectrometric reference data. These are invaluable in the analysis, identification and characterization of porphyrins, chlorophylls, bilins and other related compounds found in biological and clinical materials. HPLC method development and optimization for coupling to mass spectrometry are also described in rich detail. Sample preparation, and suggestions for avoiding procedural artifacts during extraction of clinical and biological samples are discussed. Clinical biochemists involved in biochemical diagnosis of human porphyrias will find this monograph assuredly helpful, as would analysts, biochemists and chemists involved in the separation, isolation and characterization of natural and synthetic tetrapyrroles. Undoubtedly, Lim has contributed a master-piece containing sufficient background material for beginners and up-to-date references for all researchers in the field.

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