Practical High-Performance Liquid Chromatography (eBook, PDF)
Practical High-Performance Liquid Chromatography (eBook, PDF)
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Jump into the HPLC adventure! Three decades on from publication of the 1st German edition of Veronika Meyer's book on HPLC, this classic text remains one of the few titles available on general HPLC aimed at practitioners. New sections on the following topics have been included in this fifth edition: * Comparison of HPLC with capillary electrophoresis * How to obtain peak capacity * van Deemter curves and other coherences * Hydrophilic interaction chromatography * Method transfer * Comprehensive two-dimensional HPLC * Fast separations at 1000 bar * HPLC with superheated water In addition, two…mehr
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- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 426
- Erscheinungstermin: 1. März 2010
- Englisch
- ISBN-13: 9780470688434
- Artikelnr.: 37298504
- Verlag: John Wiley & Sons
- Seitenzahl: 426
- Erscheinungstermin: 1. März 2010
- Englisch
- ISBN-13: 9780470688434
- Artikelnr.: 37298504
Introduction. 1.1 HPLC: A powerful separation method. 1.2 A first HPLC
experiment. 1.3 Liquid chromatographic separation modes. 1.4 The HPLC
instrument. 1.5 Safety in the HPLC laboratory. 1.6 Comparison between
high-performance liquid chromatography and gas chromatography. 1.7
Comparison between high-performance liquid chromatography and capillary
electrophoresis. 1.8 Units for pressure, length and viscosity. 1.9
Scientific journals. 1.10 Recommended books. 2 Theoretical Principles. 2.1
The chromatographic process. 2.2 Band broadening. 2.3 The chromatogram and
its purport. 2.4 Graphical representation of peak pairs with different
degree of resolution. 2.5 Factors affecting resolution. 2.6 Extra-column
volumes (dead volumes). 2.7 Tailing. 2.8 Peak capacity and statistical
resolution probability. 2.9 Effects of temperature in HPLC. 2.10 The limits
of HPLC. 2.11 How to obtain peak capacity. 3 Pumps. 3.1 General
requirements. 3.2 The short-stroke piston pump. 3.3 Maintenance and repair.
3.4 Other pump designs. 4 Preparation of Equipment up to Sample Injection.
4.1 Selection of the mobile phase. 4.2 Preparation of the mobile phase. 4.3
Gradient systems. 4.4 Capillary tubing. 4.5 Fittings. 4.6 Sample injectors.
4.7 Sample solution and sample volume. 5 Solvent Properties. 5.1 Table of
organic solvents. 5.2 Solvent selectivity. 5.3 Miscibility. 5.4 Buffers.
5.5 Shelf life of mobile phases. 5.6 The mixing cross. 6 Detectors. 6.1
General. 6.2 UV detectors. 6.3 Refractive index detectors. 6.4 Fluorescence
detectors. 6.5 Electrochemical (amperometric) detectors. 6.6
Light-scattering detectors. 6.7 Other detectors. 6.8 Multiple detection.
6.9 Indirect detection. 6.10 Coupling with spectroscopy. 7 Columns and
Stationary Phases. 7.1 Columns for HPLC. 7.2 Precolumns. 7.3 General
properties of stationary phases. 7.4 Silica. 7.5 Chemically modified
silica. 7.6 Styrene-divinylbenzene. 7.7 Some other stationary phases. 7.8
Column care and regeneration. 8 HPLC Column Tests. 8.1 Simple tests for
HPLC columns. 8.2 Determination of particle size. 8.3 Determination of
breakthrough time. 8.4 The test mixture. 8.5 Dimensionless parameters for
HPLC column characterization. 8.6 The van Deemter equation from reduced
parameters and its use in column diagnosis. 8.7 van Deemter curves and
other coherences. 8.8 Diffusion coefficients. 9 Adsorption Chromatography:
Normal-Phase Chromatography. 9.1 What is adsorption?. 9.2 The eluotropic
series. 9.3 Selectivity properties of the mobile phase. 9.4 Choice and
optimization of the mobile phase. 9.5 Applications. 10 Reversed-Phase
Chromatography. 10.1 Principle. 10.2 Mobile phases in reversed-phase
chromatography. 10.3 Solvent selectivity and strength. 10.4 Stationary
phases. 10.5 Method development in reversed-phase chromatography. 10.6
Applications. 10.7 Hydrophobic interaction chromatography. 11
Chromatography with Chemically Bonded Phases. 11.1 Introduction. 11.2
Properties of some stationary phases. 11.3 Hydrophilic interaction
chromatography. 12 Ion-Exchange Chromatography. 12.1 Introduction. 12.2
Principle. 12.3 Properties of ion exchangers. 12.4 Influence of the mobile
phase. 12.5 Special possibilities of ion exchange. 12.6 Practical hints.
12.7 Applications. 13 Ion-Pair Chromatography. 13.1 Introduction. 13.2
Ion-pair chromatography in practice. 13.3 Applications. 13.4 Appendix: UV
detection using ion-pair reagents. 14 Ion Chromatography. 14.1 Principle.
14.2 Suppression techniques. 14.3 Phase systems. 14.4 Applications. 15
Size-Exclusion Chromatography. 15.1 Principle. 15.2 The calibration
chromatogram. 15.3 Molecular mass determination by means of size-exclusion
chromatography. 15.4 Coupled size-exclusion columns. 15.5 Phase systems.
15.6 Applications. 16 Affinity Chromatography. 16.1 Principle. 16.2
Affinity chromatography as a special case of HPLC. 16.3 Applications. 17
Choice of Method. 17.1 The various possibilities. 17.2 Method transfer. 18
Solving the Elution Problem. 18.1 The elution problem. 18.2 Solvent
gradients. 18.3 Column switching. 18.4 Comprehensive two-dimensional HPLC.
18.5 Optimization of an isocratic chromatogram using four solvents. 18.6
Optimization of the other parameters. 18.7 Mixed stationary phases. 19
Analytical HPLC. 19.1 Qualitative analysis. 19.2 Trace analysis. 19.3
Quantitative analysis. 19.4 Recovery. 19.5 Peak-height and peak-area
determination for quantitative analysis. 19.6 Integration errors. 19.7 The
detection wavelength. 19.8 Derivatization. 19.9 Unexpected peaks: Ghost and
system peaks. 20 Quality Assurance. 20.1 Is it worth the effort?. 20.2
Verification with a second method. 20.3 Method validation. 20.4 Standard
operating procedures. 20.5 Measurement uncertainty. 20.6 Qualifications,
instrument test and system suitability test. 20.7 The quest for quality. 21
Preparative HPLC. 21.1 Problem. 21.2 Preparative HPLC in practice. 21.3
Overloading effects. 21.4 Fraction collection. 21.5 Recycling. 21.6
Displacement chromatography. 22 Separation of Enantiomers. 22.1
Introduction. 22.2 Chiral mobile phases. 22.3 Chiral liquid stationary
phases. 22.4 Chiral solid stationary phases. 22.5 Indirect separation of
enantiomers. 23 Special Possibilities. 23.1 Micro, capillary and chip HPLC.
23.2 High-speed and super-speed HPLC. 23.3 Fast separations at 1000 bar:
UHPLC. 23.4 HPLC with supercritical mobile phases. 23.5 HPLC with
superheated water. 23.6 Electrochromatography. 24 Appendix 1: Applied HPLC
Theory. 25 Appendix 2: How to Perform the Instrument Test. 25.1
Introduction. 25.2 Test sequence. 25.3 Preparations. 25.4 Pump test. 25.5
UV detector test. 25.6 Autosampler test. 25.7 Column oven test. 25.8
Equations and calculations. 25.9 Documentation. 26 Appendix 3:
Troubleshooting. 26.1 Pressure problems. 26.2 Leak in the pump system. 26.3
Deviating retention times. 26.4 Injection problems. 26.5 Baseline problems.
26.6 Peak shape problems. 26.7 Problems with light-scattering detectors.
26.8 Other causes. 26.9 Instrument test. 27 Appendix 4: Column Packing.
Index of Separations. Subject Index.
Introduction. 1.1 HPLC: A powerful separation method. 1.2 A first HPLC
experiment. 1.3 Liquid chromatographic separation modes. 1.4 The HPLC
instrument. 1.5 Safety in the HPLC laboratory. 1.6 Comparison between
high-performance liquid chromatography and gas chromatography. 1.7
Comparison between high-performance liquid chromatography and capillary
electrophoresis. 1.8 Units for pressure, length and viscosity. 1.9
Scientific journals. 1.10 Recommended books. 2 Theoretical Principles. 2.1
The chromatographic process. 2.2 Band broadening. 2.3 The chromatogram and
its purport. 2.4 Graphical representation of peak pairs with different
degree of resolution. 2.5 Factors affecting resolution. 2.6 Extra-column
volumes (dead volumes). 2.7 Tailing. 2.8 Peak capacity and statistical
resolution probability. 2.9 Effects of temperature in HPLC. 2.10 The limits
of HPLC. 2.11 How to obtain peak capacity. 3 Pumps. 3.1 General
requirements. 3.2 The short-stroke piston pump. 3.3 Maintenance and repair.
3.4 Other pump designs. 4 Preparation of Equipment up to Sample Injection.
4.1 Selection of the mobile phase. 4.2 Preparation of the mobile phase. 4.3
Gradient systems. 4.4 Capillary tubing. 4.5 Fittings. 4.6 Sample injectors.
4.7 Sample solution and sample volume. 5 Solvent Properties. 5.1 Table of
organic solvents. 5.2 Solvent selectivity. 5.3 Miscibility. 5.4 Buffers.
5.5 Shelf life of mobile phases. 5.6 The mixing cross. 6 Detectors. 6.1
General. 6.2 UV detectors. 6.3 Refractive index detectors. 6.4 Fluorescence
detectors. 6.5 Electrochemical (amperometric) detectors. 6.6
Light-scattering detectors. 6.7 Other detectors. 6.8 Multiple detection.
6.9 Indirect detection. 6.10 Coupling with spectroscopy. 7 Columns and
Stationary Phases. 7.1 Columns for HPLC. 7.2 Precolumns. 7.3 General
properties of stationary phases. 7.4 Silica. 7.5 Chemically modified
silica. 7.6 Styrene-divinylbenzene. 7.7 Some other stationary phases. 7.8
Column care and regeneration. 8 HPLC Column Tests. 8.1 Simple tests for
HPLC columns. 8.2 Determination of particle size. 8.3 Determination of
breakthrough time. 8.4 The test mixture. 8.5 Dimensionless parameters for
HPLC column characterization. 8.6 The van Deemter equation from reduced
parameters and its use in column diagnosis. 8.7 van Deemter curves and
other coherences. 8.8 Diffusion coefficients. 9 Adsorption Chromatography:
Normal-Phase Chromatography. 9.1 What is adsorption?. 9.2 The eluotropic
series. 9.3 Selectivity properties of the mobile phase. 9.4 Choice and
optimization of the mobile phase. 9.5 Applications. 10 Reversed-Phase
Chromatography. 10.1 Principle. 10.2 Mobile phases in reversed-phase
chromatography. 10.3 Solvent selectivity and strength. 10.4 Stationary
phases. 10.5 Method development in reversed-phase chromatography. 10.6
Applications. 10.7 Hydrophobic interaction chromatography. 11
Chromatography with Chemically Bonded Phases. 11.1 Introduction. 11.2
Properties of some stationary phases. 11.3 Hydrophilic interaction
chromatography. 12 Ion-Exchange Chromatography. 12.1 Introduction. 12.2
Principle. 12.3 Properties of ion exchangers. 12.4 Influence of the mobile
phase. 12.5 Special possibilities of ion exchange. 12.6 Practical hints.
12.7 Applications. 13 Ion-Pair Chromatography. 13.1 Introduction. 13.2
Ion-pair chromatography in practice. 13.3 Applications. 13.4 Appendix: UV
detection using ion-pair reagents. 14 Ion Chromatography. 14.1 Principle.
14.2 Suppression techniques. 14.3 Phase systems. 14.4 Applications. 15
Size-Exclusion Chromatography. 15.1 Principle. 15.2 The calibration
chromatogram. 15.3 Molecular mass determination by means of size-exclusion
chromatography. 15.4 Coupled size-exclusion columns. 15.5 Phase systems.
15.6 Applications. 16 Affinity Chromatography. 16.1 Principle. 16.2
Affinity chromatography as a special case of HPLC. 16.3 Applications. 17
Choice of Method. 17.1 The various possibilities. 17.2 Method transfer. 18
Solving the Elution Problem. 18.1 The elution problem. 18.2 Solvent
gradients. 18.3 Column switching. 18.4 Comprehensive two-dimensional HPLC.
18.5 Optimization of an isocratic chromatogram using four solvents. 18.6
Optimization of the other parameters. 18.7 Mixed stationary phases. 19
Analytical HPLC. 19.1 Qualitative analysis. 19.2 Trace analysis. 19.3
Quantitative analysis. 19.4 Recovery. 19.5 Peak-height and peak-area
determination for quantitative analysis. 19.6 Integration errors. 19.7 The
detection wavelength. 19.8 Derivatization. 19.9 Unexpected peaks: Ghost and
system peaks. 20 Quality Assurance. 20.1 Is it worth the effort?. 20.2
Verification with a second method. 20.3 Method validation. 20.4 Standard
operating procedures. 20.5 Measurement uncertainty. 20.6 Qualifications,
instrument test and system suitability test. 20.7 The quest for quality. 21
Preparative HPLC. 21.1 Problem. 21.2 Preparative HPLC in practice. 21.3
Overloading effects. 21.4 Fraction collection. 21.5 Recycling. 21.6
Displacement chromatography. 22 Separation of Enantiomers. 22.1
Introduction. 22.2 Chiral mobile phases. 22.3 Chiral liquid stationary
phases. 22.4 Chiral solid stationary phases. 22.5 Indirect separation of
enantiomers. 23 Special Possibilities. 23.1 Micro, capillary and chip HPLC.
23.2 High-speed and super-speed HPLC. 23.3 Fast separations at 1000 bar:
UHPLC. 23.4 HPLC with supercritical mobile phases. 23.5 HPLC with
superheated water. 23.6 Electrochromatography. 24 Appendix 1: Applied HPLC
Theory. 25 Appendix 2: How to Perform the Instrument Test. 25.1
Introduction. 25.2 Test sequence. 25.3 Preparations. 25.4 Pump test. 25.5
UV detector test. 25.6 Autosampler test. 25.7 Column oven test. 25.8
Equations and calculations. 25.9 Documentation. 26 Appendix 3:
Troubleshooting. 26.1 Pressure problems. 26.2 Leak in the pump system. 26.3
Deviating retention times. 26.4 Injection problems. 26.5 Baseline problems.
26.6 Peak shape problems. 26.7 Problems with light-scattering detectors.
26.8 Other causes. 26.9 Instrument test. 27 Appendix 4: Column Packing.
Index of Separations. Subject Index.