Conjugated Polymeric Materials Opportunities In Electronics Optoelectronics And Molecular Electronics
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Conjugated Polymeric Materials: Opportunities in Electronics, Optoelectronics, and Molecular Electronics
Author: J.L. Brédas
language: en
Publisher: Springer Science & Business Media
Release Date: 2012-12-06
This book constitutes the Proceedings of the NATO Advanced Research Workshop on Conjugated Polymers held at the University of Mons, Belgium, during the first week of September 1989. The Workshop was attended by about fifty scientists representing most of the leading research groups within NATO countries, that have contributed to the development of conjugated polymeric materials. The program was focused on applications related to electrical conductivity and nonlinear optics. The attendance was well balanced with a blend of researchers from academic, industrial, and government labs, and including synthetic chemists, physical chemists, physicists, materials scientists, and theoreticians. The Workshop provided an especially timely opportunity to discuss the important progress that has taken place in the field of Conjugated Polymers in the late eighties as well as the enormous potential that lies in front of us. Among the recent significant developments in the field, we can cite for instance: (i) The discovery of novel synthetic routes affording conjugated polymers -that are much better characterized, especially through control of the molecular weight; - that can be processed from solution or the melt; the early promise that conducting polymcrs would constitute materials combining the electrical conductivities of metals with the mechanical properties of plastics is now being realized; -that can reach remarkably high conductivities.
Nonlinear Optics of Organic Molecules and Polymers
The field of nonlinear optics emerged three decades ago with the development of the first operating laser and the demonstration of frequency doubling phenomena. These milestone discoveries not only generated much interest in laser science, but also set the stage for future work on nonlinear optics. This book presents an excellent overview of the exciting new advances in nonlinear optical (NLO) materials and their applications in emerging photonics technologies. It is the first reference source available to cover every NLO material published through 1995. All theoretical approaches, measurement techniques, materials, technologies, and applications are covered. With more than 1,800 bibliographic citations, 324 figures, 218 tables, and 812 equations, this book is an invaluable reference source for graduate and undergraduate students, researchers, scientists and engineers working in academia and industries in chemistry, solid-state physics, materials science, optical and polymer engineering, and computational science.
Polyconjugated Materials
In the past ten years the science of Polyconjugated Organic Materials has grown rapidly and is now experiencing the uncorrelated explosive development typical of a new science. The transfer of the basic scientific knowledge of these materials to the field of technology and industry is presently the focus of interest in academic and industrial circles. New devices are being developed which are paving the way for future technologies. Organic materials have become the focus of attention in these technologies. The large and very fast nonlinear optical response of organic molecules has generated new theoretical and experimental physics as well as new synthetic chemistry. The advancement of knowledge and the new achievements in this field require the interdisciplinary practice of chemists, physicists and engineers who can talk the same technical language on molecular systems which show specific physical properties. The purpose of this book is to introduce beginners to the field of nonlinear optics in organic materials and to expose specialists in one field to the problems of the other fields. Since organic molecules with a large and very fast nonlinear optical response are being continuously discovered the contributions focus on this class of materials. The volume provides a useful introduction for all those interested in the theoretical and experimental aspects of this expanding field.