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Preface; Contents; Conformational and Dynamic Behavior of Polymer and Polyelectrolyte Chains in Dilute Solutions; 1 Neutral Chains; 2 Comments on the Differences Between Dilute and Concentrated Solutions; 3 Polyelectrolyte Chains; 4 Comments on Computer Studies of Polymer Conformations and Dynamics; 5 The Persistence Length; References; Self-Assembly of Amphiphilic Block Copolymers in Selective Solvents; 1 Introduction; 2 Amphiphilic Block Copolymer Micelles; 2.1 General Features; 2.2 Micelle Preparation; 2.3 Micellar Morphology; 2.3.1 Spherical Micelles; 2.3.2 Cylindrical Micelles
2.3.3 Polymersomes2.3.4 Other Morphologies; 2.4 Micelle Characterisation: Experimental Techniques; 2.4.1 Microscopy Techniques; 2.4.2 Scattering Techniques; 2.4.3 Spectroscopic Techniques; 2.4.4 Other Techniques; 2.5 Theoretical Aspects of Micellisation; 3 Representative Amphiphilic Block Copolymer-Selective Solvent Systems; 3.1 Amphiphilic Copolymers in Organic Solvents; 3.2 Amphiphilic Block Copolymers in Aqueous Solutions; 3.2.1 Nonionic Amphiphilic Block Copolymers; 3.2.2 Ionic Amphiphilic Block Copolymers; 4 Potential Applications and Conclusions; References
Electrostatically Driven Assembly of Polyelectrolytes1 Electrostatically Driven Self- and Co-assembly; 1.1 Nomenclature; 2 Fundamentals of Electrostatically Driven Assembly; 2.1 Thermodynamics; 2.2 Stoichiometry; 2.3 Composition; 2.4 Morphology; 2.5 Stability; 2.6 Exchange Dynamics and Formation/Dissolution Kinetics; 3 Applications of Electrostatically Driven Assembly; 3.1 Responsive Materials; 3.2 Multicompartment Micelles; References; Theoretical Principles of Fluorescence Spectroscopy; 1 Introduction; 2 The Jablonski Diagram and Characteristics of Time-Dependent Fluorescence
3 Fluorescence Quenching4 Resonance Energy Transfer; 5 The Solvent Relaxation Method; 6 Solvent Relaxation in Heterogeneous Systems; 7 Time-Resolved Fluorescence Anisotropy; 8 Models of Rotational Diffusion (RD) and Their Advanced Variants; 9 Fluorescence Anisotropy in a System of Flexible Fluorescent Molecules; 10 Rigid Molecules in Anisotropic Medium; 11 Excimers and Exciplexes; 12 The Effect of Ground-State Aggregation on Fluorescence Spectra; Appendix: Simple Quantum Mechanics Explanation of Nondegenerate Transitions Between Energy Levels in ``J ́́and ``H ́́Dimers; References
Historical Perspective of Advances in Fluorescence Research on Polymer Systems1 Introduction; 2 Fluorescence Resonance Energy Transfer Studies of Polymer Systems; 3 Excimer Studies of Polymer Miscibility; 4 Fluorescence Depolarization Studies of the Dynamics of Dilute Polymer Solutions; 5 Dynamics of Concentrated Solutions and Polymer Melts; 6 Fluorescence Depolarization Studies of Chain Conformations in Dilute Solutions; 7 Comments on Self-Assembly Studies; 8 Comments of Fluorescence Studies of pi-Conjugated Polymers; References
2.3.3 Polymersomes2.3.4 Other Morphologies; 2.4 Micelle Characterisation: Experimental Techniques; 2.4.1 Microscopy Techniques; 2.4.2 Scattering Techniques; 2.4.3 Spectroscopic Techniques; 2.4.4 Other Techniques; 2.5 Theoretical Aspects of Micellisation; 3 Representative Amphiphilic Block Copolymer-Selective Solvent Systems; 3.1 Amphiphilic Copolymers in Organic Solvents; 3.2 Amphiphilic Block Copolymers in Aqueous Solutions; 3.2.1 Nonionic Amphiphilic Block Copolymers; 3.2.2 Ionic Amphiphilic Block Copolymers; 4 Potential Applications and Conclusions; References
Electrostatically Driven Assembly of Polyelectrolytes1 Electrostatically Driven Self- and Co-assembly; 1.1 Nomenclature; 2 Fundamentals of Electrostatically Driven Assembly; 2.1 Thermodynamics; 2.2 Stoichiometry; 2.3 Composition; 2.4 Morphology; 2.5 Stability; 2.6 Exchange Dynamics and Formation/Dissolution Kinetics; 3 Applications of Electrostatically Driven Assembly; 3.1 Responsive Materials; 3.2 Multicompartment Micelles; References; Theoretical Principles of Fluorescence Spectroscopy; 1 Introduction; 2 The Jablonski Diagram and Characteristics of Time-Dependent Fluorescence
3 Fluorescence Quenching4 Resonance Energy Transfer; 5 The Solvent Relaxation Method; 6 Solvent Relaxation in Heterogeneous Systems; 7 Time-Resolved Fluorescence Anisotropy; 8 Models of Rotational Diffusion (RD) and Their Advanced Variants; 9 Fluorescence Anisotropy in a System of Flexible Fluorescent Molecules; 10 Rigid Molecules in Anisotropic Medium; 11 Excimers and Exciplexes; 12 The Effect of Ground-State Aggregation on Fluorescence Spectra; Appendix: Simple Quantum Mechanics Explanation of Nondegenerate Transitions Between Energy Levels in ``J ́́and ``H ́́Dimers; References
Historical Perspective of Advances in Fluorescence Research on Polymer Systems1 Introduction; 2 Fluorescence Resonance Energy Transfer Studies of Polymer Systems; 3 Excimer Studies of Polymer Miscibility; 4 Fluorescence Depolarization Studies of the Dynamics of Dilute Polymer Solutions; 5 Dynamics of Concentrated Solutions and Polymer Melts; 6 Fluorescence Depolarization Studies of Chain Conformations in Dilute Solutions; 7 Comments on Self-Assembly Studies; 8 Comments of Fluorescence Studies of pi-Conjugated Polymers; References