This important work is based on the editors symposium at the 2005 ACS meeting in Washington, DC. The contents include an emphasis on main-group polymers, including boron. The chapters are not simply journal articles, but have real added value as the editors have reviewed the general area by placing the work into a larger perspective. This book will be required reading for scientists in a number of disciplines including chemical engineers and physics researchers.

There has been increasing research into designing transition metal-containing dendrimers as innovative materials, especially in the field of biomedicine and pharmaceutical science. They have applications in biosensors and drug-delivery systems, and are now one of the leading classes in the design of therapeutics for drug-resistant diseases. This book introduces readers to a number of classes of metal-containing dendrimers, before moving onto their design and synthesis. Their applications in biomedicine are then discussed, before highlighting future research targets in this growing field. It emphasizes the synthetic strategies to design transition metal-containing dendrimers, and discusses the type of laboratory work used to examine these types of dendrimers in the fields of medicine and pharmacology, including their antimicrobial, anticancer, anti-inflammatory and antiviral activities. Transition Metal-Containing Dendrimers in Biomedicine brings chemistry, biology, pharmaceutical science and medical fields together to design these future materials which will have global benefits.

This important work is based on the editors' symposium at the 2005 ACS meeting in Washington, DC. The contents include an emphasis on main-group polymers, including boron. The chapters are not simply journal articles, but have real added value as the editors have reviewed the general area by placing the work into a larger perspective. This book will be required reading for scientists in a number of disciplines including chemical engineers and physics researchers.

New materials are required to solve global challenges such as the growing energy demand and reducing the threat of new and re-emerging diseases and infections. Metallopolymers is an exciting and promising area of research and this book focuses on the strategy of incorporating transition metals into macromolecules to design functional materials for addressing such problems. The book starts with an introduction to current global challenges and the role of materials science in tackling these, it then discusses the fundamentals of metallopolymers and their synthesis. The final chapters look at specific applications of the materials from photovoltaics and light-emitting diodes for energy conservation, to biological sensors and drug delivery platforms. Written by leading experts in the field, this book is an ideal reference for students and researchers working in polymer chemistry, organometallic chemistry and materials science interested in both the polymers and their applications in energy and health.