Cargando…

Energy harvesting materials /

This book covers all aspecets of energy harvesting materials, ranging from natural plant and bacterial photosystems, through their biologically inspired synthetic analogs, to other photoactive molecular materials such as dendrimers. The theory and underlying principles across the full range of light...

Descripción completa

Detalles Bibliográficos
Clasificación:	Libro Electrónico
Otros Autores:	Andrews, David L., 1952-
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Singapore ; Hackensack, NJ : World Scientific Pub. Co., ©2005.
Temas:	Solar collectors > Materials. Solar energy. Photochemistry. Solar Energy Capteurs solaires > Matériaux. Énergie solaire. Photochimie. solar power. TECHNOLOGY & ENGINEERING > Mechanical. Photochemistry Solar collectors > Materials Solar energy Fotosynthese. Eiwitten. Lichtabsorptie. Energietransport. Wieren. Bacteriën.
Acceso en línea:	Texto completo

Tabla de Contenidos:

Preface; Contents; Physical Principles of Efficient Excitation Transfer in Light Harvesting; 1. INTRODUCTION; 2. PRINCIPLES OF EXCITATION TRANSFER; 3. EXCITATION LIFETIME AND QUANTUM YIELD; 4. REPRESENTATIVE PATHWAYS OF EXCITATION TRANSFER BASED ON MEAN FIRST PASSAGE TIMES; 5. SOJOURN EXPANSION: AN EXPANSION FOR EXCITATION MIGRATION IN TERMS OF REPEATED DETRAPPING EVENTS; 6. ROBUSTNESS AND OPTIMALITY OF A LIGHT HARVESTING SYSTEM; 7. PRINCIPLES FOR DESIGNING ARTIFICIAL LIGHT-HARVESTING SYSTEMS; ACKNOWLEDGMENTS; Design and Synthesis of Light Energy Harvesting Proteins.
1. ENGINEERING INSIGHTS FROM NATURAL PHOTOSYSTEM DESIGN2. DESIGNING LHC PROTEIN MAQUETTES; 3. CONCLUSIONS AND PROSPECTS; ACKNOWLEDGMENTS; How Purple Bacteria Harvest Light Energy; 1. INTRODUCTION; 2. GENERAL ASPECTS OF ANTENNA COMPLEX STRUCTURE; 3. THE STRUCTURE OF LH2; 4. THE STRUCTURE OF THE RC-LH1 CORE COMPLEX; 5. ENERGY TRANSFER WITHIN THE PSU; 6. CONCLUSION; ACKNOWLEDGMENTS; Regulation of Light Harvesting in Photosystem II of Plants Green Algae and Cyanobacteria; 1. INTRODUCTION; 2. COMPOSITON STRUCTURE AND FUNCTION OF LIGHT HARVESTING COMPLEXES; 3. EXCITATION PRESSURE AND PHOTOSTASIS.
4. ROLE OF LIGHT HARVESTING IN PHOTOPROTECTION AND PHOTOSTASIS5. NUTRIENT LIMITATIONS; 6. SENSING CELLULAR ENERGY IMBALANCE AND REGULATION OF LIGHT HARVESTING; ACKNOWLEDGEMENTS; From Biological to Synthetic Light-Harvesting Materials
The Elementary Steps; 1. INTRODUCTION; 2. PHOTOSYNTHEHC LIGHT-HARVESTING
ENERGY TRANSFER AND TRAPPING; 3. ORGANIC CONDUCTING POLYMERS: LIGHT HARVESTING AND GENERATION; 4. DYE-SENSITIZED NANOSTRUCTURED SEMI- CONDUCTORS
ENERGY CONVERSION BY ULTRAFAST ELECTRON TRANSFER; 5. TRANSITION METAL SUPRAMOLECULAR COMPLEXES
ENERGY TRANSFER IN ARTIFICIAL ANTENNAS.
ACKNOWLEDGEMENTSControlling Excitation Energy and Electron Transfer by Tuning the Electronic Coupling; 1. INTRODUCTION; 2. THEORETICAL BACKGROUND; 3. DONOR-BRIDGE-ACCEPTOR SYSTEMS WITH TT-BRIDGES; 4. o-BRIDGES AND SUPEREXCHANGE
THE THROUGH-BOND COUPLING MECHANISM.; 5. CONCLUSIONS; Energy Transfer and Trapping in Engineered Macromolecules; 1. INTRODUCTION; 2. EXPETIMENTAL DETAILS; 3. ENGINEERED POLYMER SYSTEMS; 4. CONCLUSIONS; ACKNOWLEDGMENTS; Dendrimer-Based Devices: Antennae and Amplifiers; 1. INTRODUCTION; 2. DENDRIMERS AS LIGHT HARVESTING ANTENNAE; 3. DENDRIMERIC AMPLIFIERS.
Energy Harvesting in Synthetic Dendritic Materials1. INTRODUCTION; 2. METAL-CONTAINING DENDRIMERS; 3. PHENYLACETYLENE DENDRIMERS; 4. DENDRIMERS CONTAINING DISTYRYLBENZENE OR STILBENE UNITS; 5. PORPHYRIN-CONTAINING DENDRIMERS; 6. COUMARIN DYE LABELED POLY(ARYLETHER) DENDRIMERS; 7. TWO-PHOTON LIGHT HARVESTING AND ENERGY TRANSFER; 8. POLYPHENYLENE DENDRIMERS; 9. ENERGY TRANSFER TO ENCAPSULATED GUESTS; 10. CONCLUSION; ACKNOWLEDGEMENTS; Fullerenes in Biomimetic Donor-Acceptor Networks; 1. INTRODUCTION; 2. HYDROGEN BONDING MOTIFS; 3. II-STACK MOTIFS; 4. CROWN ETHER COMPLEXATION MOTIFS.

Energy harvesting materials /

Ejemplares similares