Introduction to Organic Electronic and Optoelectronic Materials and Devices
Introduction to Organic Electronic and Optoelectronic Materials and Devices

Author: Sam-Shajing Sun

Publisher: CRC Press

Published: 2008-05-29

Total Pages: 936

ISBN-13: 1420009192

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Reflecting rapid growth in research and development on organic/polymeric electronic and photonic materials and devices, Introduction to Organic Electronic and Optoelectronic Materials and Devices provides comprehensive coverage of the state-of-the-art in an accessible format. The book presents fundamentals, principles, and mechanisms complem

Organic Electronics II
Organic Electronics II

Author: Hagen Klauk

Publisher: John Wiley & Sons

Published: 2012-03-26

Total Pages: 443

ISBN-13: 3527326472

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Like its predecessor this book is devoted to the materials, manufacturing and applications aspects of organic thin-film transistors. Once again authored by the most renowned experts from this fascinating and fast-moving area of research, it offers a joint perspective both broad and in-depth on the latest developments in the areas of materials chemistry, transport physics, materials characterization, manufacturing technology, and circuit integration of organic transistors. With its many figures and detailed index, this book once again also serves as a ready reference.

Organic Optoelectronic Materials
Organic Optoelectronic Materials

Author: Yongfang Li

Publisher: Springer

Published: 2015-05-30

Total Pages: 402

ISBN-13: 3319168622

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This volume reviews the latest trends in organic optoelectronic materials. Each comprehensive chapter allows graduate students and newcomers to the field to grasp the basics, whilst also ensuring that they have the most up-to-date overview of the latest research. Topics include: organic conductors and semiconductors; conducting polymers and conjugated polymer semiconductors, as well as their applications in organic field-effect-transistors; organic light-emitting diodes; and organic photovoltaics and transparent conducting electrodes. The molecular structures, synthesis methods, physicochemical and optoelectronic properties of the organic optoelectronic materials are also introduced and described in detail. The authors also elucidate the structures and working mechanisms of organic optoelectronic devices and outline fundamental scientific problems and future research directions. This volume is invaluable to all those interested in organic optoelectronic materials.

Conjugated Polymers
Conjugated Polymers

Author: John R. Reynolds

Publisher: CRC Press

Published: 2019-03-27

Total Pages: 660

ISBN-13: 1351659812

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The Fourth Edition of the Handbook of Conducting Polymers, Two-Volume Set continues to be the definitive resource on the topic of conducting polymers. Completely updated with an extensive list of authors that draws on past and new contributors, the book takes into account the significant developments both in fundamental understanding and applications since publication of the previous edition. One of two volumes comprising the comprehensive Handbook, Conjugated Polymers: Perspective, Theory, and New Materials features new chapters on the fundamental theory and new materials involved in conducting polymers. It discusses the history of physics and chemistry of these materials and the theory behind them. Finally, it details polymer and materials chemistry including such topics as conjugated block copolymers, metal-containing conjugated polymers, and continuous flow processing. Aimed at researchers, advanced students, and industry professionals working in materials science and engineering, this book covers fundamentals, recent progress, and new materials involved in conducting polymers and includes a wide-ranging listing of comprehensive chapters authored by an international team of experts.

Handbook of Conducting Polymers, Fourth Edition - 2 Volume Set
Handbook of Conducting Polymers, Fourth Edition - 2 Volume Set

Author: John R. Reynolds

Publisher: CRC Press

Published: 2019-11-14

Total Pages: 1488

ISBN-13: 1351660233

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In the last 10 years there have been major advances in fundamental understanding and applications and a vast portfolio of new polymer structures with unique and tailored properties was developed. Work moved from a chemical repeat unit structure to one more based on structural control, new polymerization methodologies, properties, processing, and applications. The 4th Edition takes this into account and will be completely rewritten and reorganized, focusing on spin coating, spray coating, blade/slot die coating, layer-by-layer assembly, and fiber spinning methods; property characterizations of redox, interfacial, electrical, and optical phenomena; and commercial applications.

Crystallographic and Quantum Chemical Studies of Materials for Organic Electronics Applications
Crystallographic and Quantum Chemical Studies of Materials for Organic Electronics Applications

Author: Xu Wang

Publisher:

Published: 2017

Total Pages: 210

ISBN-13:

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Charge-transfer complexes/co-crystals are promising organic semiconducting materials for electronics applications. However, the understanding of their fundamental structureƯ property relations still needs more explorations. In this project we studied three series of materials which are (1) co-crystals of cis-bis(trifluoromethylethylene-1,2- dithiolato)nickel (Ni(tfd)z) (acceptor) and four different aromatic donor molecules, (2) crystals of four different derivatives of dithienophenazines (DTPhz), and (3) crystals of 5,6-bis(9H-carbazol-9-yl)benzo[c]-[1,2,5] thiadiazole (DCBT). Single crystals of these materials were characterized using single crystal X-ray diffraction (XRD). A total of four co-crystals of series (I) and nine samples of series of (2) and (3) were structurally characterized. The XRD results had shown that different crystal growth conditions could result in different structure and stoichiometry (polymorphs). Furthermore, electronic structure calculations based on the results of XRD have shown that, for the same material, the degree of charge transfer and HOMO/LUMO levels gaps were different due to the difference in structure and stoichiometry of the crystals.