Principles and Practice of Chromatography

Introduction

The Development Process

Displacement Development

Frontal Analysis

Elution Development

Chromatography Nomenclature

Factors Controlling Retention

The Thermodynamic Explanation of Retention

Factors Affecting the Magnitude of the Distribution Coefficient (K)

Molecular Forces

Dispersion Forces

Polar Forces

Dipole-Dipole Interactions

Dipole-Induced-Dipole Interactions

Ionic Forces

Hydrophobic and Hydrophilic Interactions

Molecular Forces and Chromatographic Selectivity

Separations Based on Dispersive Interactions

Separations Based on Polar Interactions

Separations Based on Ionic Interactions

The Control of Chromatographically Available Stationary Phase (Vs)

The Effect of Stationary Phase Loading on the Performance of a Chromatographic System

Stationary Phase Limitation by Chiral Selectivity.

Stationary Phase Limitation by Exclusion

Peak Dispersion in a Chromatographic Column

The Multi-Path Effect

Longitudinal Diffusion

The Resistance to Mass Transfer in the Mobile Phase

The Resistance to Mass Transfer in the Stationary Phase

The Golay Equation for Open Tubular Columns

The Efficiency of a TLC Plate

The Basic Column Chromatograph

The Mobile Phase Supply

The Sampling System

The Column and Column Oven

Detector and Detector Electronics

The Detector Output

Data Acquisition and Processing System

Thin Layer Chromatography Apparatus

Thin Layer Chromatography Chambers

Continuous Plate Development

Sample Application

Chromatography Applications

Gas Chromatography Applications

Gasoline

High Temperature GC Stationary Phases

Hydrocarbon Analysis

Essential Oils

The Identification of Bacteria by Their Volatile Fatty Acid Profiles.

Chiral Separations

Liquid Chromatography Applications

Ionic Interaction Chromatography

Separation of Growth Regulators

Analysis of b -blockers

References

 
 
 

Journal of Chromatographic Science

Query

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