Fluorescence of Supermolecules, Polymers, and Nanosystems

History and Fundamental Aspects.- Early History of Solution Fluorescence: The Lignum nephriticum of Nicolás Monardes.- From Well-Known to Underrated Applications of Fluorescence.- Principles of Directed Electronic Energy Transfer.- Luminescence Decays with Underlying Distributions of Rate Constants: General Properties and Selected Cases.- Fluorescence as the Choice Method for Single-Molecule Detection.- Molecular and Supramolecular Systems.- Water-soluble Fluorescent Chemosensors: in Tune with Protons.- Fluorescence of Fullerenes.- Squeezing Fluorescent Dyes into Nanoscale Containers—The Supramolecular Approach to Radiative Decay Engineering.- Polymers, Semiconductors, Model Membranes and Cells.- Resonance Energy Transfer in Polymer Interfaces.- Defocused Imaging in Wide-field Fluorescence Microscopy.- Dynamics of Excited States and Charge Photogeneration in Organic Semiconductor Materials.- Resonance Energy Transfer in Biophysics: Formalisms and Application to Membrane Model Systems.- Measuring Diffusion in a Living Cell Using Fluorescence Correlation Spectroscopy. A Closer Look at Anomalous Diffusion Using HIV-1 Integrase and its Interactions as a Probe.- Pushing the Complexity of Model Bilayers: Novel Prospects for Membrane Biophysics.- Nanotubes, Microparticles and Nanoparticles.- Photoluminescence Properties of Carbon Nanotubes.- Fluorescence Correlation Spectroscopic Studies of a Single Lipopolyamine–DNA Nanoparticle.- Morphology-Dependent Resonance Emission from Individual Micron-Sized Particles.- New Plastic Microparticles and Nanoparticles for Fluorescent Sensing and Encoding.