This book represents a detailed and systematic account of the basic principles, developments and applications of the theory of nucleation. The formation of new phases begins with the process of nucleation and is, therefore, a widely spread phenomenon in both nature and technology. Condensation and evaporation, crystal growth, electrodeposition, melt crystallization, growth of thin films for microelectronics, volcano eruption and formation of particulate matter in space are only a few of the processes in which nucleation plays a prominent role. The book has four parts, which are devoted to the…mehr
This book represents a detailed and systematic account of the basic principles, developments and applications of the theory of nucleation. The formation of new phases begins with the process of nucleation and is, therefore, a widely spread phenomenon in both nature and technology. Condensation and evaporation, crystal growth, electrodeposition, melt crystallization, growth of thin films for microelectronics, volcano eruption and formation of particulate matter in space are only a few of the processes in which nucleation plays a prominent role. The book has four parts, which are devoted to the thermodynamics of nucleation, the kinetics of nucleation, the effect of various factors on nucleation and the application of the theory to other processes, which involve nucleation. The first two parts describe in detail the two basic approaches in nucleation theory - the thermodynamic and the kinetic ones. They contain derivations of the basic and most important formulae of the theoryand discuss their limitations and possibilities for improvement. The third part deals with some of the factors that can affect nucleation and is a natural continuation of the first two chapters. The last part is devoted to the application of the theory to processes of practical importance such as melt crystallization and polymorphic transformation, crystal growth and growth of thin solid films, size distribution of droplets and crystallites in condensation and crystallization. The book is not just an account of the status quo in nucleation theory - throughout the book there are a number of new results as well as extensions and generalisations of existing ones.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Artikelnr. des Verlages: B978-0-7506-4682-6.X5000-8
2000.
Seitenzahl: 544
Erscheinungstermin: 11. Mai 2000
Englisch
Abmessung: 242mm x 164mm x 36mm
Gewicht: 940g
ISBN-13: 9780750646826
ISBN-10: 0750646829
Artikelnr.: 25432266
Herstellerkennzeichnung
Libri GmbH
Europaallee 1
36244 Bad Hersfeld
06621 890
Autorenporträt
Dimo Kashchiev is a Professor at the Institute of Physical Chemistry, Bulgarian Academy of Sciences, Bulgaria. He graduated in physics at Sofia University in Sofia, Bulgaria after presenting a theoretical M.Sc. thesis on nonstationary nucleation. In the same year he joined the Institute of Physical Chemistry at the Bulgarian Academy of Sciences. In this Institute he took the position of Research Professor in 1989. In 1975 he defended a Ph.D. thesis on the kinetic theory of nucleation, and in 1987 he obtained the degree of Doctor of Science for a thesis on the theory of nucleation and growth of new phases. In 2004 he became Corresponding Member of the Bulgarian Academy of Sciences. In 1970 he specialized for two months in the Laboratory for Crystal Growth of Prof. A. A. Chernov at the USSR Academy of Sciences in Moscow, Russia. In 1975-1976 he was a postdoctoral research fellow for one year in the Laboratory for Crystal Growth of Prof. P. Bennema at the Delft University of Technology in Delft, The Netherlands. Professor Kashchiev was Visiting Professor (by invitation) at the Delft University of Technology in Delft, The Netherlands, Hiroshima University in Higashi-Hiroshima, Japan, Reservoir Engineering Research Institute in Palo Alto, California, and Liverhulme Visiting Professor at the University of Leeds in Leeds, UK.
Inhaltsangabe
Thermodynamics of Nucleation: First-Order Phase Transitions; Driving Force for Nucleation; Work for Cluster Formation; Nucleus Size and Nucleation Work; Nucleation Theorem; Properties of Clusters; Equilibrium Cluster Size Distribution; Density-Functional Approach. Kinetics of Nucleation: Master Equation; Transition Frequencies; Nucleation Rate; Equilibrium; Stationary Nucleation; First Application of the Nucleation Theorem; Nonstationary Nucleation; Second Application of the Nucleation Theorem; Nucleation at Variable Supersaturation. Factors affecting Nucleation: Seed size; Line Energy; Strain Energy; Electric Field; Carrier-Gas Pressure; Solution Pressure; Preexisting Clusters; Active Centres. Applications: Overall Crystallization; Crystal Growth; Third Application of the Nucleation Theorem; Induction Time; Fourth Application of the Nucleation Theorem; Metastabiltiy Limit; Maximum Number of Supernuclei; Size Distribution of Supernuclei; Growth of Thin Films; Lifetime of Amphiphile Bilayers. Appendices; References; Author index; Subject Index.
Thermodynamics of Nucleation: First-Order Phase Transitions; Driving Force for Nucleation; Work for Cluster Formation; Nucleus Size and Nucleation Work; Nucleation Theorem; Properties of Clusters; Equilibrium Cluster Size Distribution; Density-Functional Approach. Kinetics of Nucleation: Master Equation; Transition Frequencies; Nucleation Rate; Equilibrium; Stationary Nucleation; First Application of the Nucleation Theorem; Nonstationary Nucleation; Second Application of the Nucleation Theorem; Nucleation at Variable Supersaturation. Factors affecting Nucleation: Seed size; Line Energy; Strain Energy; Electric Field; Carrier-Gas Pressure; Solution Pressure; Preexisting Clusters; Active Centres. Applications: Overall Crystallization; Crystal Growth; Third Application of the Nucleation Theorem; Induction Time; Fourth Application of the Nucleation Theorem; Metastabiltiy Limit; Maximum Number of Supernuclei; Size Distribution of Supernuclei; Growth of Thin Films; Lifetime of Amphiphile Bilayers. Appendices; References; Author index; Subject Index.
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