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Bock R., Niessner R. Separation Techniques in Analytical Chemistry: Distribution in Non-Miscible Phases or by Different Migration Rates in One Phase
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Walter de Gruyter GmbH, 2023. — 424 p. — ISBN: 978-3-11-117979-7. — De Gruyter Textbook Series.The separation of a mixture into its individual components is one of the most fundamental procedures in analytical and industrial chemistry. This classic book in analytical chemistry provides a comprehensive yet systematic outline of all known separation methods. Through its detailed treatment of the basic principles of separation possibilities, it not only covers what is currently known, but also represents a treasure trove of methods that are still awaiting further development. It is clearly structured and contains interesting examples, further reading and a detailed index. An indispensable book for advanced students of natural sciences (chemistry, biochemistry, food chemistry, pharmacy, clinical chemistry, environmental sciences) and technology (chemical engineering, chemical-physical measurement & biotechnology), as well as teachers of these disciplines.
A targeted introduction to separation techniques used in analytical chemistry.
With numerous diagrams for illustrating the equipment.
Concise format, well suited for study and training.Evaluation of separation processes
Classification of separation processes
Chemical reactions during separations
Analytical application of incomplete separations
Concentration data
Introduction
Distribution between two liquids
Solubility of gases in liquids
Adsorption and absorption of gases on solids
Adsorption of dissolved substances on solids
Ion exchange
Solubility: Precipitation methods
Solubility: Extraction and phase analysis
Solubility: Crystallization
Volatilization: Distillation and related processes
Volatilization: Sublimation
Condensation
Introduction
Migration of charge carriers in electric and magnetic fields (mass spectrometry)
Migration of dissolved charge carriers in an electric field (electrophoresis; electrodialysis)
Migration of particles in the concentration gradient (diffusion)
Migration of particles in the gravitational field (sedimentation – flotation)
Separation of particles in the crossed force field
A targeted introduction to separation techniques used in analytical chemistry.
With numerous diagrams for illustrating the equipment.
Concise format, well suited for study and training.Evaluation of separation processes
Classification of separation processes
Chemical reactions during separations
Analytical application of incomplete separations
Concentration data
Introduction
Distribution between two liquids
Solubility of gases in liquids
Adsorption and absorption of gases on solids
Adsorption of dissolved substances on solids
Ion exchange
Solubility: Precipitation methods
Solubility: Extraction and phase analysis
Solubility: Crystallization
Volatilization: Distillation and related processes
Volatilization: Sublimation
Condensation
Introduction
Migration of charge carriers in electric and magnetic fields (mass spectrometry)
Migration of dissolved charge carriers in an electric field (electrophoresis; electrodialysis)
Migration of particles in the concentration gradient (diffusion)
Migration of particles in the gravitational field (sedimentation – flotation)
Separation of particles in the crossed force field
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