Description |
1 online resource |
Series |
Comprehensive series in photochemical & photobiological sciences ; 14 |
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Comprehensive series in photochemistry & photobiology ; 14
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Contents |
880-01 Cover; Comprehensive Series in Photochemical and Photobiological Science; Dedication; Preface; Foreword; Contents; Section IV -- Detection of Singlet Oxygen; Chapter 24 -- Overview of Detection Methods; References; Chapter 25 -- Steady-State and Time-Resolved Singlet Oxygen Phosphorescence Detection in the Near-IR; 25.1. Introduction; 25.2. Kinetics of Singlet Oxygen Production and Decay in a Photosensitized Reaction; 25.3. Time Evolution of the Singlet Oxygen Phosphorescence upon Pulsed Irradiation; 25.3.1. The Basic Rise-and-Decay Equation |
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880-01/(S 25.5. Practical Aspects25.6. Applications; 25.6.1. Identifying 1O2; 25.6.2. Quantifying 1O2; 25.6.3. Determining τT and τΔ; 25.7. Conclusions and Outlook; References; Chapter 26 -- Singlet Oxygen in Heterogeneous Systems; 26.1. Introduction; 26.2. Singlet Oxygen Quantum Yields in Heterogeneous Environment; 26.3. The Diffusion of Singlet Oxygen Affects the Luminescence Kinetics; 26.4. Examples of 1O2 Kinetics in Heterogeneous Environments; 26.4.1. Photosensitizers in Small Unilamellar Vesicels (SUVs); 26.4.2. Photosensitizers in Cell Suspensions; 26.5. Limits and Perspective; References |
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Chapter 27 -- Spatially Resolved Singlet Oxygen Detection and Imaging27.1. Introduction; 27.1.1. Scales of Spatial Resolution of Singlet Oxygen Luminescence Detection; 27.1.2. Technical Approaches of Direct Detection; 27.1.3. Indirect Methods; 27.1.4. Complementary Imaging Methods; 27.2. Steady-State Singlet Oxygen Luminescence Detection; 27.2.1. Detection on the Microscopic Scale; 27.2.2. Detection on the Macroscopic Scale; 27.3. Time-Resolved Singlet Oxygen Luminescence Detection; 27.3.1. Detection on the Microscopic Scale; 27.3.2. Detection on the Macroscopic Scale |
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27.4. Summary and ConclusionsReferences; Chapter 28 -- Singlet Oxygen-Sensitized Delayed Fluorescence; 28.1. Introduction; 28.2. Different Kinds of Delayed Fluorescence; 28.3. Thermally Activated DF (thermDF); 28.4. Triplet-Triplet Annihilation DF (TTADF); 28.5. Direct 1O2-Dimol Emission; 28.6. Singlet Oxygen-Sensitized Delayed Fluorescence (SOSDF); 28.6.1. Singlet Oxygen Feedback-Induced Delayed Fluorescence (SOFDF); 28.6.2. DF Sensitized by Two 1O2 Molecules (SO2DF); 28.7. Recombination DF; 28.8. Distinguishing Among Different DF Types; Thermally Activated DF (thermDF) |
Summary |
Meeting the desire for a comprehensive book that collects and curates the vast amount of knowledge gained in the field of singlet oxygen, this title covers the physical, chemical and biological properties of this reactive oxygen species and also its increasingly important applications across chemical, environmental and biomedical areas. The editors have a long and distinguished background in the field of singlet oxygen chemistry and biomedical applications, giving them a unique insight and ensuring the contributions attain the highest scientific level. The book provides an up to date reference resource for both the beginner and experienced researcher and crucially for those working across disciplines such as photochemistry, photobiology and photomedicine |
Bibliography |
Includes bibliographical references and index |
Notes |
English |
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Online resource; title from PDF title page (Royal Society of Chemistry, viewed February 2, 2016) |
Subject |
Active oxygen.
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Reactive Oxygen Species
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Organic chemistry.
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Biology, life sciences.
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SCIENCE -- Life Sciences -- Biochemistry.
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Active oxygen
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Form |
Electronic book
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Author |
Nonell, Santi, editor
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Flors, Cristina, editor
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Royal Society of Chemistry (Great Britain)
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ISBN |
9781782626992 |
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1782626999 |
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9781782628132 |
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1782628134 |
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