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Determination of Anions A Guide for the Analytical Chemist

The author has drawn together almost all published methods since 1975 on the determination of anions in all types of matrices. He presents the methods in a logical manner so that the reader can quickly gain access to the method and types of instrumentation available

Bibliographic Details
Main Author: Crompton, Thomas R.
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 1996, 1996
Edition:1st ed. 1996
Subjects:
Environmental Chemistry
Forestry
Food Science
Analytical Chemistry
Pollution
Agriculture
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • 1 Introduction
  • 1.1 Rationale: Water Samples
  • 1.2 Rationale: Solid and Gaseous Samples
  • 1.3 Brief Summary of Methodologies
  • 1.4 References
  • 2 Halogen-Containing Anions
  • 2.1 Chloride
  • 2.2 Bromide
  • 2.3 Iodide
  • 2.4 Fluoride
  • 2.5 Mixed Halides
  • 2.6 Chlorate, Chlorite, Perchlorate and Hypochlorite
  • 2.7 Bromate
  • 2.8 Iodate
  • 2.9 References
  • 3 Nitrogen-Containing Anions
  • 3.1 Nitrate
  • 3.2 Nitrite
  • 3.3 Nitrate and Nitrite
  • 3.4 Free Cyanide
  • 3.5 Total Cyanide
  • 3.6 Cyanate
  • 3.7 References
  • 4 Sulphur Containing Anions
  • 4.1 Sulphate
  • 4.2 Sulphite
  • 4.3 Thiosulphate and Polythionates
  • 4.4 Thiocyanate
  • 4.5 Sulphide
  • 4.6 Polysulphide
  • 4.7 References
  • 5 Phosphorus Containing Anions
  • 5.1 Phosphate
  • 5.2 Condensed Phosphates
  • 5.3 References
  • 6 Silicon-Containing Anions
  • 6.1 Silicate
  • 6.2 References
  • 7 Boron-Containing Anions
  • 7.1 Borate
  • 7.2 References
  • 8 Carbonate, Bicarbonate and Total Alkalinity
  • 11.4 Industrial Effluents and Waste Waters
  • 11.5 Boiler Feed Water
  • 11.6 Plant and Soil Extracts
  • 11.7 Foodstuffs
  • 11.8 Column Coupling Isotachophoresis of Natural Waters
  • 11.9 References
  • 12 On-Site Measurement of Anions
  • 13 On-Line Measurement of Anions
  • 14 Preconcentration of Anions
  • 14.1 Iodide
  • 14.2 Phosphate
  • 14.3 Sulphide
  • 14.4 Borate
  • 14.5 Arsenite
  • 14.6 Selenate/Selenite
  • 14.7 Chromate
  • 14.8 Molybdate
  • 14.9 Rhenate
  • 14.10 Complex Anions
  • 14.11 References
  • 8.1 Total Alkalinity
  • 8.2 Carbonate
  • 8.3 Bicarbonate
  • 8.4 References
  • 9 Metal-Containing Anions
  • 9.1 Arsenite
  • 9.2 Arsenate
  • 9.3 Arsenite/Arsenate
  • 9.4 Selenite
  • 9.5 Selenate
  • 9.6 Selenate/Selenite
  • 9.7 Tellurate
  • 9.8 Chromate/Dichromate
  • 9.9 Germanate
  • 9.10 Molybdate
  • 9.11 Tungstate
  • 9.12 Uranate
  • 9.13 Vanadate
  • 9.14 Titanate
  • 9.15 Ferrocyanide
  • 9.16 Metal Cyanide Complexes
  • 9.17 References
  • 10 Organic Anions
  • 10.1 Formate and Acetate
  • 10.2 Citrate
  • 10.3 Isocitrate
  • 10.4 Oxalate
  • 10.5 Malate
  • 10.6 Lactate
  • 10.7 Salicylate
  • 10.8 Ascorbate
  • 10.9 Dehydroascorbate
  • 10.10 Pyruvate
  • 10.11 Glutamate
  • 10.12 Amino Acids
  • 10.13 Nitroloacetate and Ethylene Diamine Tetraacetates
  • 10.14 Carboxylates
  • 10.15 Sulphonates and Chlorolignosulphonates
  • 10.16 Acetoacetate
  • 10.17 Mixed Organic Anions
  • 10.18 References
  • 11 Applicationsof Ion Chromatography
  • 11.1 Natural Waters
  • 11.2 Rainwater
  • 11.3 Potable Water

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