Dendrimers, which are hyperbranched synthetic macromolecules, have attracted researchers' increasing interest over the last three decades owing to their numerous properties, in particular, in the fields of biology and nanomedicine. This book is an up-to-date collection of the most recent achievements in the use of dendrimers in nanomedicine, exemplified by phosphorus-containing dendrimers. Starting with the synthesis and characterization of phosphorus dendrimers, the book discusses their use as biomaterials, carriers of biological entities, and anti-inflammatory drugs; in bioimaging; and against prion diseases, Alzheimer's, HIV, and cancer. It compares phosphorus dendrimers with other types of dendrimers. Supplemented with numerous references and abundant illustrations, the book opens new perspectives for the researchers working on dendrimers.

This book starts with the general physics of surface plasmons and a brief introduction of the most prominent research topics, followed by computational techniques for light scattering by small particles. Then, a few special topics are highlighted, including surface-enhanced Raman scattering, optical nanoantennas, optical force, plasmonic waveguides and circuits, and gain-assisted plasmon resonances and propagation. The book also discusses the fundamental and representative properties and research in this field, which can help graduate students and researchers get a quick introduction to this field.