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Sangwal

Additives and Crystallization Processes

Medium: Buch
ISBN: 978-0-470-06153-4
Verlag: Wiley-Blackwell
Erscheinungstermin: 27.09.2007
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Crystal growth technology involves processes for the production of crystals essential for microelectronics, communication technologies, lasers and energy producing and energy saving technology. A deliberately added impurity is called an additive and in different industries these affect the process of crystal growth. Thus, understanding of interactions between additives and the crystallizing phases is important in different processes found in the lab, nature and in various industries.

This book presents a generalized description of the mechanisms of action of additives during nucleation, growth and aggregation of crystals during crystallization and has received endorsement from the President of the International Organization for Crystal Growth. It is the first text devoted to the role of additives in different crystallization processes encountered in the lab, nature and in industries as diverse as pharmaceuticals, food and biofuels.

A unique highlight of the book are chapters on the effect of additives on crystal growth processes, since the phenomena discussed is an issue of debate between researchers

Produkteigenschaften

  • Artikelnummer: 9780470061534
  • Medium: Buch
  • ISBN: 978-0-470-06153-4
  • Verlag: Wiley-Blackwell
  • Erscheinungstermin: 27.09.2007
  • Sprache(n): Englisch
  • Auflage: Erscheinungsjahr 2007
  • Produktform: Gebunden
  • Gewicht: 953 g
  • Seiten: 468
  • Format (B x H x T): 174 x 251 x 31 mm
  • Ausgabetyp: Kein, Unbekannt

Themen

Autoren/Hrsg.

Autoren

Sangwal, Keshra

Preface.

1 Complexes in Solutions.

1.1 Structure of Common Solvents.

1.2 Structure of Pure Aqueous Electrolyte Solutions.

1.3 Structure of Aqueous Electrolyte Solutions Containing Additives.

1.4 Polyelectrolytes and Surfactants in Solutions.

1.5 Polydentate Ligands and Molecular Additives.

1.6 Crystal-Additive Interactions.

References.

2 Three-Dimensional Nucleation and Metastable Zone Width.

2.1 Driving Force for Phase Transition.

2.2 Three-Dimensional Nucleation of Crystals.

2.3 Metastable Zone Width.

2.4 Nucleation and Transformation of Metastable Phases.

2.5 Induction Period for Crystallization.

2.6 Effects of Additives.

References.

3 Kinetics and Mechanism of Crystal Growth: An Overview.

3.1 Crystal Growth as a Kinetic Process.

3.2 Types of Crystal-Medium Interfaces.

3.3 Roughening of Steps and Surfaces.

3.4 Growth Kinetics of Rough Faces.

3.5 Growth Kinetics of Perfect Smooth Faces.

3.6 Growth Kinetics of Imperfect Smooth Faces.

3.7 Effect of Foreign Substances on Growth Kinetics.

3.8 Real Crystal Growth Mechanisms.

3.9 Techniques for Studying Growth Kinetics.

References.

4 Effect of Impurities on Crystal Growth Kinetics.

4.1 Mobile and Immobile Impurities.

4.2 Surface Coverage and Adsorption Isotherms.

4.3 Kinetic Models of Impurity Adsorption.

4.4 Confrontation of Impurity Adsorption Mechanisms with Experimental Data.

4.5 Time-Dependent Impurity Adsorption.

4.6 Growth Kinetics in the Presence of Impurities.

4.7 Tapering of KDP-Type Crystals.

4.8 Growth-Promoting Effects of Impurities.

4.9 Impurity Adsorption on Rough Faces.

4.10 Formation of Two-Dimensional Adsorption Layer.

4.11 Interactions Between Additives and Crystal Interface.

4.12 Tailor-Made Additives.

References.

5 Dead Supersaturation Zone and Threshold Supersaturations for Growth.

5.1 Origin of Threshold Supersaturations for Growth.

5.2 Determination of Threshold Supersaturations from v(Ã) and R(Ã) Data.

5.3 Dependence of Threshold Supersaturations on Impurity Concentration: Basic Theoretical Equations and Linear Approximations.

5.4 Confrontation of Theoretical Equations with Experimental Data.

5.5 Impurity Adsorption and Solution Supersaturation.

5.6 Dependence of Ratios Ãd/Ã* and Ã*/Ã** on ci References.

6 Mineralization in Natural and Artificial Systems.

6.1 Biomineralization as a Process.

6.2 Pathological Mineralization.

6.3 Effect of Biologically Active Additives on Crystallization Processes.

6.4 Scale Formation and Salt Weathering.

References.

7 Morphology and Size Distribution of Crystals.

7.1 Growth Morphology of Crystals.

7.2 Ostwald Ripening and Crystal Size Dispersion.

7.3 Crystal Size Distribution.

7.4 Control of Shape and Size of Particles.

7.5 Biological Tissue Engineering.

References.

8 Additives and Crystallization Processes in Industries.

8.1 Pharmaceutical Industry.

8.2 Petroleum Industry.

8.3 Food Industry.

References.

9 Incorporation of Impurities in Crystals.

9.1 Types of Impurity Incorporation and the Segregation Coefficient.

9.2 Equilibrium Segregation Coefficient.

9.3 Effective Segregation Coefficient.

9.4 Relationship Between Effective Segregation Coefficient and Face Growth Rate.

9.5 Threshold Supersaturation for Trapping of Impurities During Growth.

9.6 Effective Segregation Coefficient and Internal Stresses Caused by Impurities.

References.

List of Symbols.

Subject Index.

Author Index.