Chemical physics research developments /
Clasificación: | Libro Electrónico |
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Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
New York :
Nova Science Publishers,
©2011.
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Colección: | Chemistry research and applications series.
Physics research and technology. |
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- CHEMICAL PHYSICS RESEARCH DEVELOPMENTS ; CHEMICAL PHYSICS RESEARCH DEVELOPMENTS ; CONTENTS ; PREFACE ; PHOTOPERCEPTION IN PLANTS: STRUCTURAL AND FUNCTIONAL HETEROGENEITY OF PHYTOCHROME A ; ABSTRACT ; 1. INTRODUCTION ; 2. PHYTOCHROME: MOLECULAR NATURE AND MECHANISMS OF ACTION ; 3. LIGHT SIGNAL TRANSDUCTION WITH PARTICIPATION OF PHYTOCHROME ; 4. MULTIPLE PHYTOCHROMES
- PRODUCTS OF DIFFERENT GENES, MAJOR PHYTOCHROMES A AND B ; 5. POLYMORPHISM OF PHYTOCHROME A ; 5.1. In-Planta Phytochrome Fluorescence and Photochemistry.
- 5.2. The Energy Level Scheme of the Initial Photoprocesses in Phytochrome 5.3. Spectroscopically and Photochemically Distinct Phytochrome Species in the Plant Cell ; 5.4. Two Molecular Species of Phytochrome A ; 6. THE NATURE OF THE PHYTOCHROME A ISOFORMS ; 7. FUNCTIONAL SPECIFICITY OF PHYA' AND PHYA'' ; 7.1. Participation of PhyA' and PhyA'' in the Nuclear-Cytoplasmic Partitioning ; 7.2. Photophysiological Distinctions between the Two PhyA Pools ; 7.3. Light Regulation of PhyA' and PhyA'' Content in the Cell ; CONCLUSION ; ACKNOWLEDGMENTS ; REFERENCES.
- HOMOCHIRAL POROUS METAL-ORGANIC FRAMEWORKS: A STEP TO THE FUTURE OF STEREOSELECTIVE RECOGNITION AND CATALYSIS ABSTRACT ; INTRODUCTION ; METAL-ORGANIC FRAMEWORKS FOR CHIRAL SEPARATIONS ; METAL-ORGANIC FRAMEWORKS FOR ASYMMETRIC CATALYSIS ; CONCLUDING REMARKS AND OUTLOOK ; REFERENCES ; UNDERSTANDING NANOSCALE PHENOMENA USING SINGLE PARTICLE MASS SPECTROMETRY AND IMPROVEMENT OF ITS PERFORMANCE
- A REVIEW ; ABSTRACT ; I. INTRODUCTION ; II. SINGLE PARTICLE MASS SPECTROMETRY (SPMS) ; II. 1. Working Principle of the SPMS ; II. 2. Difference between SPMS and ATOFMS.
- II. 3. Determination of Chemical Composition of a Particle Using SPMS II. 4. Size Estimation of a Particle Size from Its Mass Spectrum ; II. 5. Transport Losses of Energetic Ions ; II. 6. Nanosecond Laser-Induced Energetic Ion Formation ; III. APPLICATIONS OF SINGLE PARTICLE MASS SPECTROMETRY ; III. 1. Kinetic Measurement of Aerosol-Phase Spray Pyrolysis Reaction ; Spray Pyrolysis Reaction ; Measurement of Kinetic Data of the Spray Pyrolysis Reaction ; Change in Reaction Kinetics with Decreasing Initial Sample Mass ; III. 2. Size-Resolved Kinetic Measurement of Aluminum Nanoparticle Oxidation.
- Kinetic Measurement of Aluminum Nanoparticle Oxidation A Mechanism of Aluminum Nanoparticle Oxidation ; III. 3. Characterization of Metal-Containing Diesel-Emitted Particles ; Classification of Particles and Size Distributions for Their Classes ; Mechanism of Particle Formation ; IV. DEVELOPMENT OF SINGLE PARTICLE MASS SPECTROMETRY ; IV. 1. Design of a New Ion Optics ; Trial 1: Curved Repelling Plate ; Trial 2: Einzel Lens; Trial 3: A Tubular Electrode and the Final Design ; IV. 2. Design of an Aerodynamic Lens ; Analysis of Single Aerodynamic Lens ; Analysis of Multi-Lens System; CONCLUSION.