Electrical, Optical and Magnetic Properties of Organic Solid-State Materials IV: Volume 488

Electrical, Optical and Magnetic Properties of Organic Solid-State Materials IV: Volume 488

Author: John R. Reynolds

Publisher:

Published: 1998-05-06

Total Pages: 992

ISBN-13:

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This book shows that research involving electrical, optical and magnetic properties of organic solid-state materials continues to grow both in scope and technological importance. Early studies of charge transport in conducting polymers have evolved from the elucidation of fundamental structure/function relationships to applications such as batteries, simple electrical devices such as diodes, chemical sensors, antistatic coatings, microwave and millimeter wave-absorbing materials, and photochromic devices. A particularly exciting evolution has been the discovery and development of organic light-emitting diodes (OLEDs) which appear to be nearing commercialization in an amazingly short period of time. This application is of particular interest because both electrical and optical properties must be considered.. Topics include: organic light-emitting materials and devices; photonic materials and devices; conducting and electroactive polymers and materials; molecular and supramolecular engineering; organic metals and magnetic materials and poster presentations.


Electrical, Optical, and Magnetic Properties of Organic Solid-state Materials V

Electrical, Optical, and Magnetic Properties of Organic Solid-state Materials V

Author: Susan Ermer

Publisher:

Published: 2000

Total Pages: 598

ISBN-13: 9781558995062

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This volume, the fifth in a popular series, features papers related to the development and utilization of materials with novel electrical, optical or magnetic properties. The field has experienced tremendous growth in the past years, and this volume provides a forum for materials scientists, chemists, physicists and engineers to assess the progress. In particular, light-emitting materials for displays are showing great promise for widespread commercialization. Developments in molecular engineering and self assembly, as well as in conducting polymers, are enabling better performance and greater scientific understanding of the phenomena underlying these advances. Improvements in electro-optic, photorefractive and two-photon absorbing materials are also being realized and are addressed here.


Electrical, Optical and Magnetic Properties of Organic Solid-State Materials IV:

Electrical, Optical and Magnetic Properties of Organic Solid-State Materials IV:

Author: John R. Reynolds

Publisher: Cambridge University Press

Published: 2014-06-05

Total Pages: 982

ISBN-13: 9781107413450

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This book shows that research involving electrical, optical and magnetic properties of organic solid-state materials continues to grow both in scope and technological importance. Early studies of charge transport in conducting polymers have evolved from the elucidation of fundamental structure/function relationships to applications such as batteries, simple electrical devices such as diodes, chemical sensors, antistatic coatings, microwave and millimeter wave-absorbing materials, and photochromic devices. A particularly exciting evolution has been the discovery and development of organic light-emitting diodes (OLEDs) which appear to be nearing commercialization in an amazingly short period of time. This application is of particular interest because both electrical and optical properties must be considered.. Topics include: organic light-emitting materials and devices; photonic materials and devices; conducting and electroactive polymers and materials; molecular and supramolecular engineering; organic metals and magnetic materials and poster presentations.


Materials Science of the Cell: Volume 489

Materials Science of the Cell: Volume 489

Author: B. Mulder

Publisher:

Published: 1998-11-16

Total Pages: 248

ISBN-13:

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The 34 papers investigate the processing routes and properties of the complex molecular and macromolecular structures that hold biological cells together, both to reveal some of the mysteries of cell function and to identify natural solutions for optimizing membranes that might be adapted for applications in materials science. They cover the mechanics of DNA; the cytoskeleton, semiflexible polymers, polyelectrolytes, and motor proteins; properties and models of membranes and their interactions with macromolecules; biomaterials; and cells and cellular processes. Annotation copyrighted by Book News, Inc., Portland, OR