PEDOT: Principles and Applications of an Intrinsically Conductive Polymer

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CRC Press, 02.11.2010 - 377 Seiten
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The unparalleled large-scale commercial application of poly(3,4-ethylenedioxythiophene), otherwise known as PEDOT, continues to fuel a need for literature about it that is concise, easily available, but sufficiently comprehensive. Designed to meet the requirements of readers from different areas of expertise and experience with the substance, PEDOT
 

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Inhalt

Chapter 1 The Discovery and Development of Conducting Polymers
1
Chapter 2 Conductive Polymers versus Metals and Insulators
21
A Chance for Maximum Conductivity?
31
Chapter 4 A Short History of the PEDOT Invention
41
Chapter 5 The Synthesis of EDOT Monomer and Its Physical and Chemical Properties
47
Oxidative Polymerization and Other Routes
67
Chapter 7 Conterions for PEDOT
83
Chapter 8 The In Situ Polymerization of EDOT to PEDOT
91
Chapter 10 Applications
167
Chapter 11 Technical Use and Commercial Aspects
265
Chapter 12 EDOT and PEDOT Derivatives with Covalently Attached Side Groups
271
Ring Size Variations Heteroanalogs and Derivatives of EDOT with Substituents at the Thiophene Ring
293
Chapter 14 The Electrochemical Behavior of EDOT and PEDOT
329
Index
345
Back cover
357
Urheberrecht

PSS
113

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PEDOT: Principles and Applications of an Intrinsically Conductive Polymer
Andreas Elschner,Stephan Kirchmeyer,Wilfried Lovenich,Udo Merker,Knud Reuter
Keine Leseprobe verfügbar - 2010

Häufige Begriffe und Wortgruppen

3,4-ethylenedioxythiophene absorption acid Adv Mater alkyl anode antistatic Appl Phys Lett applications band gap Bayer bipolaron cation charge Chem Mater Chem Soc chemical coating complex compounds conducting polymers conjugated polymers counterion deposited dielectric dimer doped EDOT EDOT derivatives EDOT-CH2OH elec electrical conductivity electrochemical electrolyte capacitors electronic electropolymerization Elschner Figure function Groenendaal H.C. Starck Heywang highly conductive increase Inganäs iron(III J. R. Reynolds Jonas Kirchmeyer light-emitting diodes Macromolecules material MDOT metal moieties molecular monomer O O S O O oligomers optical organic organic light-emitting diodes particles PEDOT PEDOT:PSS PEDOT:PSS dispersions PEDOT:PSS films peroxodisulfate phene poly poly(3,4-ethylenedioxythiophene polyacetylene polyaniline polyelectrolyte polymerization polypyrrole polythiophenes Prior ProDOT properties reaction redox Reuter Roncali S/cm semiconductor solar cells soluble solvents spectroscopy spin coating stability structure substrate sulfonate surface resistance Synth synthesis tantalum temperature thin films thiophene tion tosylate transparent undoped voltage Zotti

Über den Autor (2010)

Andreas Elschner, Ph.D., was educated as a solid-state physicist at the University of Marburg (Germany) where he received his Ph.D. in 1988. Following a postdoctoral year at Stanford University (California) he joined Bayer AG in 1990, and has been with H.C. Starck since 2002. Dr. Elschner's research focus is on organic electronics and he is responsible for testing and characterizing organic devices and conducting polymers.

Stephan Kirchmeyer Ph.D., studied chemistry from 1978 to 1984 at the University of Hamburg (Germany) and at the University of Southern California in Los Angeles. Until 2001, Dr. Kirchmeyer worked as a researcher for IBM and Bayer AG. In 2002, he joined H.C. Starck GmbH and since then has held several responsible positions for H.C. Starck's business with conductive polymers and electronic materials.

Wilfried Lovenich, Ph.D., received his diploma in chemistry from the Technical University of Aachen (Germany). He then went to the University of Durham, Great Britain, to obtain his Ph.D. In 2002, Dr. Lovenich joined H.C. Starck, working as an R&D chemist on the development and pilot plant production of the conductive polymer PEDOT. Since 2009, Dr. Lovenich has been the head of the R&D group of H.C. Starck Clevios GmbH.

Udo Merker, Ph.D., studied physics at the University of Bonn (Germany) from 1989 to 1994. He received his Ph.D. in 1998 for studies in molecular spectroscopy at the University of Bonn and Princeton University (New Jersey). From 1998 to 1999, Dr. Merker was a postdoctorate at the Chemistry Department of Princeton University. In 1999, he joined the corporate research division of Bayer AG to work on the development of electronic materials. From 2002 until 2008, Dr. Merker was responsible for the development of new materials and processes for electrolytic capacitors in the central R&D division of H.C. Starck G

Bibliografische Informationen

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TitelPEDOT: Principles and Applications of an Intrinsically Conductive Polymer
AutorenAndreas Elschner, Stephan Kirchmeyer, Wilfried Lovenich, Udo Merker, Knud Reuter
Ausgabeillustriert
VerlagCRC Press, 2010
ISBN1420069128, 9781420069129
Länge377 Seiten
  
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