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High Performance Liquid Chromatography

Modern liquid column chromatography (LC) has developed rapidly since 1969 to become a standard method of separation. If the statisticians are to be believed, the recent growth of LC has been the most specta­ cular development in analytical chemistry and has not yet abated be­ cause its vast potentia...

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Bibliographic Details
Main Author: Engelhardt, Heinz
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 1979, 1979
Edition:1st ed. 1979
Series:Chemical Laboratory Practice
Subjects:
Environmental Chemistry
Analytical Chemistry
Biochemistry
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • I. Chromatographic Processes
  • References Chapter I
  • II. Fundamentals of Chromatography
  • A. Retention
  • B. Linear Flow Rate, Porosity, Permeability
  • C. Band Broadening
  • D. Resolution
  • E. Dependence of Band Broadening on Flow Rate
  • F. Band Broadening and Particle Size
  • G. Extra-Column Band Broadening
  • H. Optimum Analysis Conditions and Analysis Time
  • I. Selection of a Suitable Column
  • References Chapter II
  • III. Equipment for HPLC
  • A. Solvent Reservoir — Degassing of the Eluent
  • B. Pumps
  • C. Damping of the Pulsations
  • D. Sample Introduction
  • E. The Column
  • F. Thermostating
  • G. Measurement of the Flow Rate
  • H. Fraction Collectors
  • I. Recorders
  • J. Instrumentation for Gradient Elution
  • K. Safety Measures
  • References Chapter III
  • IV. Detectors
  • A. UV Detectors
  • B. Differential Refractometer
  • C. Microadsorption Detector
  • D. Transport Detector (Flame Ionization Detector)
  • E. Fluorescence Detector
  • F. Other Detectors
  • A. Introduction
  • B. Basics of Exclusion Chromatography
  • C. Stationary Phases for Exclusion Chromatography
  • D. Applications of Exclusion Chromatography
  • References Chapter IX
  • X. Selection of the Separation System
  • References Chapter X
  • XI. Special Techniques
  • A. Preparative Chromatography
  • B. Qualitative Analysis
  • C. Quantitative Analysis
  • D. Trace Analysis
  • References Chapter XI
  • XII. Purification of Solvents
  • References Chapter XII.
  • G. Comparison of the Important Detectors
  • H. Reaction Detectors
  • References Chapter IV
  • V. Stationary Phases
  • A. Packing Materials for Adsorption and Partition Chromatography
  • B. Chemically Modified Supports
  • C. Ion Exchangers
  • D. Stationary Phases for Exclusion Chromatography
  • References Chapter V
  • VI. Adsorption Chromatography
  • I. Polar Stationary Phases
  • II. Nonpolar Stationary Phases
  • III. The General Elution Problem
  • IV. Applications of Adsorption Chromatography
  • References Chapter VI
  • VII. Partition Chromatography
  • A. Introduction
  • B. Supports and Liquid Phases
  • C. Properties of the Column
  • D. Applications
  • E. Ion-pair Chromatography
  • References Chapter VII
  • VIII. Ion-Exchange Chromatography
  • A. Principle
  • B. Ion Exchange Materials
  • C. Characterization of the Ion Exchangers
  • D. Optimizing aSeparation
  • E. Applications
  • References Chapter VIII
  • IX. Exclusion Chromatography. Gel Permeation Chromatography

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