Modern Methods of Plant Analysis / Moderne Methoden der Pflanzenanalyse

123 phase and hence have no direct bearing on the retention time of solutes. However in gas-solid chromatography, a considerable quantity of the mobile phase may be adsorbed on the surface of the stationary adsorbent which diminishes the column's effective length and ability to retain solutes....

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Bibliographic Details
Main Authors: Biemann, K., Boardman, N. K. (Author), Breyer, B. (Author), Burg, S. P. (Author)
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 1962, 1962
Edition:1st ed. 1962
Series:Modern Methods of Plant Analysis Moderne Methoden der Pflanzenanalyse
Subjects:
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Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • Table des Matières pour la Contribution: H. Prat, Méthodes Calorimétriques pour l’;Analyse des Végétaux
  • B. Purification of Antigens, Immunization of Animals and Treatment of Antisera
  • C. Serological Methods
  • D. Antigen-Antibody Reactions in Sensitized Animals or Their Organs
  • E. Quantitative Determinations of Antigens
  • F. Measurements of the Amounts of Antibodies in Sera
  • G. Methods for the Determination of Relationships between Antigens
  • H. Immuno-Chemical Criteria of Purity of Antigens
  • J. Applications
  • Concluding Remarks
  • References
  • Polarography and Tensammetry.
  • A. Principles of Polarography
  • B. The Practice of Polarography
  • References
  • Fallout Contamination in Plants.
  • A. Factors which Influence the Fallout Contamination of Plants
  • B. Methods of Estimating Gross Fallout Contamination in Plant Material
  • C. Methods of Estimating the Individual Radionuclides in Contaminated Plant Materials
  • References
  • Sachverzeichnis (Deutsch-Englisch)
  • Subject Index (English-German)
  • — Contents
  • Emission and Atomic Absorption Spectrochemical Methods.
  • A. Flame Emission Methods
  • B. Arc Emission Analysis
  • C. Spark Emission Methods
  • D. Atomic Absorption Methods
  • References
  • Mass Spectrometric Methods.
  • A. Instrumentation
  • B. The Sample
  • C. Origin of Mass Spectra and their Interpretation
  • D. Specific Applications
  • Appendix I
  • References
  • Plant Spectra: Absorption and Action.
  • A. Instrumentation
  • B. Light Scatter Phenomena
  • C. Absorption Spectra
  • D. Action Spectra
  • E. Fluorescence Excitation Spectra
  • References
  • Gefriertrocknung.
  • A. Die biologischen Probleme der Gefriertrocknung
  • B. Die Vakuum-Sublimation
  • C. Anwendungen
  • D. Verwandte Methoden
  • Vapour Phase Chromatography.
  • A. Theoretical Approach
  • B. Apparatus Requirements
  • C. Techniques
  • D. Applications
  • E. Conclusion
  • References
  • Ion-Exchange Chromatography.
  • A. Ion-Exchange Materials
  • B. Theory of Chromatographic Procedures
  • IV. Thermogénèse des Cultures Bactériennes et Mycéliennes; Fermentations
  • V. Chaleurs de Combustion d’;Organes et de Produits Végétaux
  • VI. Conclusion
  • Références Bibliographiques
  • Surface Factors Affecting the Penetration of Compounds into Plants.
  • A. Effect of Molecular Structure on Permeation
  • B. Effect of Surface and Interfacial Factors on Potency of Treatments
  • C. Surface and Interfacial Tension
  • D. Wetting and Spreading
  • References
  • Tissue and Single Cell Cultures of Higher Plants as a Basic Experimental Method.
  • A. History of the Method
  • B. Types of Cultures
  • C. Tissue Culture Media
  • D. Isolations of Organs, Tissues and Cells
  • E. Transfer and Maintenance of Cultures
  • F. Single CeU Cultures
  • G. Growth Measurements
  • H. Requirementsfor Growth of Callus Cultures
  • J. Some Applications of Tissue and Cell Cultures
  • K. Resume
  • References
  • Immunological Methods.
  • A. The General Principles of Immunological Methods
  • A. Average Molecular Weights
  • B. Osmotic Pressure
  • C. Light Scattering
  • D. Diffusion
  • E. Ultracentrifugation
  • F. Viscosity
  • G. Particle Shape from Hydrodynamic Measurements
  • Sectional References
  • Optical Rotatory Dispersion. Its Application to Protein Conformation.
  • A. Mean Residue Rotation of Polypeptides and Proteins
  • B. Optical Rotatory Dispersion — Drude Equation
  • C. Rotatory Properties of Synthetic Polypeptides
  • D. Optical Rotatory Properties of Proteins
  • E. Temperature Dependence of Optical Rotation
  • F. Measurement of Optical Rotation
  • G. Treatment of Data
  • References
  • Diffuse Röntgenkleinwinkelstreuung.
  • A. Theorie
  • B. Experimentelle Methodik
  • C. Anwendungsbeispiele
  • Literatur
  • Méthodes Calorimétriques pour l’;Analyse des Végétaux.
  • I. Appareillage
  • II. Thermogenèse de Germinations
  • III. Gradients de Thermogénèse dans les Organes en Croissance
  • C. Apparatus
  • D. Experimental Procedures
  • E. Some Applications of Ion-Exchange Chromatography
  • F. Ion-Exclusion
  • G. Mechanism of Adsorption of Solutes on Ion-Exchange Resins
  • H. Applicability of Ion-Exchange Chromatography
  • References
  • Table 1. Chromatographie grade resins and celluloses
  • Molecular Sieving other than Dialysis.
  • A. Ion-Exchange Materials as Ionic Sieves
  • B. Molecular Sieving on Starch
  • C. Dextran Gels as Molecular Sieves
  • References
  • Dünnschicht-Chromatographie.
  • A. Methode und Geräte
  • B. Spezielle Arbeitstechniken
  • C. Anwendungsbereich und Einsatzmöglichkeiten
  • D. Anwendungsbeispiele
  • Literatur
  • Paper Chromatography on a Preparative Scale.
  • A. General
  • B. Multisheet- and Cardboard-Chromatography
  • C. Separation on Paper-Packs
  • D. Column Chromatography
  • E. Continous Paper Chromatography
  • F.Accelerated Chromatography
  • References
  • Determination of Size, Shape and Homogeneity of Macromolecules in Solution.