Fluorescence of Supermolecules, Polymers, and NanosystemsMario N. Berberan-Santos Springer Science & Business Media, 04 նոյ, 2007 թ. - 468 էջ This, the fourth volume in the Springer series on fluorescence, focuses on the fluorescence of nanosystems, polymers and supermolecules, as well as the development and application of fluorescent probes. Aimed at researchers in organic and physical chemistry and in material sciences, emphasis is placed on the fluorescence of artificial and biological nanosystems; single molecule fluorescence and the luminescence of polymers; and micro- and nanoparticles and nanotubes. |
Բովանդակություն
Conclusion | 42 |
Principles of Directed Electronic Energy Transfer | 44 |
Luminescence Decays with Underlying Distributions | 67 |
Fluorescence as the Choice Method for SingleMolecule Detection | 105 |
Fluorescence of Fullerenes | 150 |
Squeezing Fluorescent Dyes into Nanoscale Containers | 185 |
Resonance Energy Transfer in Polymer Interfaces | 213 |
Defocused Imaging in Widefield Fluorescence Microscopy | 257 |
Dynamics of Excited States and Charge Photogeneration | 285 |
Measuring Diffusion in a Living Cell | 323 |
Photoluminescence Properties of Carbon Nanotubes | 361 |
B ZhouY LinB A HarruffY P Sun 363 | 381 |
MorphologyDependent Resonance Emission | 415 |
New Plastic Microparticles and Nanoparticles | 430 |
465 | |
Այլ խմբագրություններ - View all
Fluorescence of Supermolecules, Polymers, and Nanosystems Mario N. Berberan-Santos Դիտել հնարավոր չէ - 2009 |
Fluorescence of Supermolecules, Polymers, and Nanosystems Mario N. Berberan-Santos Դիտել հնարավոր չէ - 2007 |
Fluorescence of Supermolecules, Polymers, and Nanosystems Mario N. Berberan-Santos Դիտել հնարավոր չէ - 2010 |
Common terms and phrases
absorption acceptor addition analysis applications beads binding block calculated carbon cells changes charge Chem Chem Phys Chem Soc chromophores coefficient complex concentration copolymer corresponding decay dependence derivatives described detection determined diffusion dipole direct distance distribution domains donor effect efficiency electron emission emission spectrum energy transfer example excitation experimental experiments exponential field fitted fluorescence fluorophore formation function geometry given groups GUVs imaging increase indicator intensity interaction interface labeled laser lifetime light lipid luminescence measured membrane method molecular molecules nanotubes observed obtained optical orientation pair parameter particles phase Phys Phys Chem polarization polymer position present probe properties protein protonated quantum quenching range rate constant ratio resonance respectively separation shown shows single solution species spectra spectrum structure surface techniques temperature tion values wavelength yield