Liquid Chromatography for the Analyst. (1994)
- Record Type:
- Book
- Title:
- Liquid Chromatography for the Analyst. (1994)
- Main Title:
- Liquid Chromatography for the Analyst
- Further Information:
- Note: Raymond P.W. Scott.
- Authors:
- Scott, Raymond P. W
- Contents:
- Cover; Half Title; Series Page; Title Page; Copyright Page; Preface; Acknowledgments; Table of Contents; 1. An Introduction to Chromatography; A Short History of LC; The Separation Process; The Different Forms of Chromatography; Chromatography Nomenclature; References; 2. Resolution, Retention and Selectivity; The Plate Theory; The Retention Volume of a Solute; Factors that Control the Distribution Coefficient of a Solute; Molecular Interactions; The Thermodynamic Explanation of Retention; Factors that Control the Availability of the Stationary Phase; Chromatographic Methods of Identification The Capacity Ratio of a SoluteThe Separation Ratio; Column Efficiency; References; 3. Liquid Chromatography Phase Systems; The Production of Silica Gel; Solute/Solvent Interactions on the Surface of Silica Gel; Mono-Layer Adsorption of Solvents on the Surface of Silica Gel; Solute Interactions with the Silica Gel Surface (Mobile Phase n-Heptane/Chloroform); Bi-Layer Adsorption of Solvents on the Surface of Silica Gel; Solute Interactions with the Silica Gel Surface (Mobile Phase n-Heptane/Ethyl Acetate); Silica Gel as an Exclusion Medium; Application Areas for Silica Gel as a Stationary Phase Silica Gel as a Stationary Phase in Elution ChromatographySilica Gel as a Stationary Phase in Exclusion Chromatography; Bonded Phases; The Different Classes of Bonded Phases; Reverse Phases; The Interaction of Reverse Phases with Solvents and Solutes; Paired Ion Reagents; The Use of Bonded PhasesCover; Half Title; Series Page; Title Page; Copyright Page; Preface; Acknowledgments; Table of Contents; 1. An Introduction to Chromatography; A Short History of LC; The Separation Process; The Different Forms of Chromatography; Chromatography Nomenclature; References; 2. Resolution, Retention and Selectivity; The Plate Theory; The Retention Volume of a Solute; Factors that Control the Distribution Coefficient of a Solute; Molecular Interactions; The Thermodynamic Explanation of Retention; Factors that Control the Availability of the Stationary Phase; Chromatographic Methods of Identification The Capacity Ratio of a SoluteThe Separation Ratio; Column Efficiency; References; 3. Liquid Chromatography Phase Systems; The Production of Silica Gel; Solute/Solvent Interactions on the Surface of Silica Gel; Mono-Layer Adsorption of Solvents on the Surface of Silica Gel; Solute Interactions with the Silica Gel Surface (Mobile Phase n-Heptane/Chloroform); Bi-Layer Adsorption of Solvents on the Surface of Silica Gel; Solute Interactions with the Silica Gel Surface (Mobile Phase n-Heptane/Ethyl Acetate); Silica Gel as an Exclusion Medium; Application Areas for Silica Gel as a Stationary Phase Silica Gel as a Stationary Phase in Elution ChromatographySilica Gel as a Stationary Phase in Exclusion Chromatography; Bonded Phases; The Different Classes of Bonded Phases; Reverse Phases; The Interaction of Reverse Phases with Solvents and Solutes; Paired Ion Reagents; The Use of Bonded Phases in Elution Chromatography; Aqueous Solvent Mixtures; The Use of Macro-Porous Polymers as Stationary Phases; Polymer Stationary Phases in Elution Chromatography; General Advice for the Unknown Sample; References; 4. The Liquid Chromatography Column; The Rate Theory; The Summation of Variances The Maximum Sample VolumeThe Van Deemter Equation; The Significance of the HETP Equation; The Reduced Chromatogram; Resolution; Calculating the Efficiency Required to Achieve a Specific Resolution; Peak Asymmetry; Column Selection; Column Diameter; Preparative Columns; Volume Overload; References; 5. The Liquid Chromatograph; The Basic Liquid Chromatograph; The Mobile Phase Supply System; The Gradient Programmer; The LC Pump; The Sample Valve; The Column and Column Oven; Detectors; Data Acquisition and Processing; References; 6. Liquid Chromatography Detectors; Detector Specifications Detector Linearity and Response Index (a)Linear Dynamic Range; Detector Noise Level; Measurement of Detector Noise; Detector Sensitivity or the Minimum Detectable Concentration; Pressure Sensitivity; Flow Sensitivity; Temperature Sensitivity; The UV Detector; The Fixed Wavelength Detector; The Multi-Wavelength Detector; The Electrical Conductivity Detector; The Fluorescence Detector; The Refractive Index Detector; The Tridet Multifunctional Detector; References; 7. Sample Preparation; Sample Preparation Techniques; Filtration Techniques; Centrifugation Techniques … (more)
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 1994
- Extent:
- 1 online resource
- Subjects:
- 543/.0894
Chromatographic analysis
Chromatographic analysis
Electronic books - Languages:
- English
- ISBNs:
- 9781482277593
- Related ISBNs:
- 148227759X
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Physical Locations:
- British Library HMNTS - ELD.DS.283418
- Ingest File:
- 01_190.xml