Halides : chemistry, physical properties and structural effects /
Clasificación: | Libro Electrónico |
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Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Hauppauge, New York :
Nova Science Publishers, Inc.,
2013.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- HALIDES: CHEMISTRY, PHYSICAL PROPERTIES AND STRUCTURAL EFFECTS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapte 1: Alkali Halide Clusters: Experiment and Theory; Abstract; 1. Introduction; 2. Experimental Analysis of Alkali Halide Clusters Using Mass Spectrometry; 2.1. Cluster Ion Production: Flowing Gas Condensation, Atomic/Ionic/Cluster Bombardment, Laser Desorption and Electrospray Techniques; 2.2. Analysis of Cluster Ions Using Time-Of-Flight Mass Spectrometry: keV/ MeV Ion Impact and the 252Cf Fission Fragment Source.
- 2.3. Angular Distribution and Initial Energy Analyses UsingXY-TOF; 2.4. Structural Analysis Using Ion Mobility Spectrometry
- Mass Spectrometry; 3. Theoretical Methods for Structural Characterization of Alkali Halide Clusters; 3.1. Genetic Algorithms As a Search Engine for STable Configurations; 3.2. Ab Initio and DFT Methods for Geometry Optimization and Quantum Dynamics; 3.3. Alkali Halide Structures. C(n,q,i) Cluster Series; 3.4. Analysis of Alkali Halide Cluster Structures: Deviation Plot, Charge Distribution, Electron Affinity and Fragmentation Energy; References.
- Chapter 2: Synthesis, Characterization and Influence of Electrolyte Solutions towards the Electrical Properties of Nylon-6,6 Nickel Carbonate Membrane: Test for the Theory of Uni-ionic Potential Based on Thermodynamics of Irreversible ProcessesAbstract; 1. Introduction; 2. Experimental; 2.1. Reagents and Instruments; 2.2. Synthesis of Nylon-6,6Nickel Carbonate Membranes; 2.3. Experimental Setups; 2.4. Instrumental Characterization; 3. Results and Discussion; Conclusion; References; Chapter 3: Nucleophilic Substitution and Palladium-Catalyzed Coupling Mechanisms of Aromatic Halides; Abstract.
- IntroductionReferences; Chapter 4: Dislocation Pinned by a Monovalent Ion in Various Alkali Halide Crystals; Part I. Various Models between a Dislocation and the Monovalent Cation; Abstract; Model Overcoming the Thermal Obstacle by a Dislocation; Effective Stress Due to Impurities vs. Temperature; References; Part II. Characteristics on the Breakaway of a Dislocation from the Monovalent Cation; Abstract; Introduction; Breaking Angle and (L/ L0) for KCl:Li+ or Na+ Single Crystals; Conclusion; References; Part III. Breaking Angle of an Anion as Obstacle for Moving Dislocation; Abstract.
- IntroductionBreaking Angle and (L/L0) for the Dislocation Motion; Conclusion; References; Chapter 5: The Nonlinear Elastic Properties and Grüneisen Constants of Alkali Halide*; Abstract; 1. Introduction; 2. Theory of Nonlinear Elasticity; 3. Determination of the Elastic Constants; 4. The Effective Elastic Constants under Pressure; 5. Anderson-Gr uneisen Parameter; 6. Conclusion; References; Index.