Organic Electronics II
More Materials and Applications
1. Auflage Januar 2012
XX, 420 Seiten, Hardcover
223 Abbildungen (34 Farbabbildungen)
4 Tabellen
Handbuch/Nachschlagewerk
Kurzbeschreibung
Bringing together experts from academia and industry, the author offers a joint perspective on latest developments. This edition retains the proven concept, while adding new content, and shows readers how to fabricate working devices and turn them into commercial products.
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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.
PART I: Materials
ORGANIC SEMICONDUCTOR MATERIALS FOR TRANSISTORS
General Considerations
Materials Properties of Organic Semiconductors
Small Molecule Semiconductors
Polymer Semiconductors
Semiconductor Blends
Device Physics and Architecture
Summary
CHARACTERIZATION OF ORDER AND ORIENTATION IN SEMICONDUCTING POLYMERS
Introduction
X-Ray Diffraction
Near-Edge X-Ray Absorption Fine Structure (NEXAFS) Spectroscopy
CHARGE TRANSPORT THEORIES IN ORGANIC SEMICONDUCTORS
Introduction
Well-Ordered Systems: Organic Single Crystals
Disordered Materials
Conclusions
SILYLETHYNE-SUBSTITUTED ACENES AND HETEROACENES
Introduction
Silylethyne-Substituted Pentacenes
Crystal Packing
Heteroacenes
Silylethynyl Heteroacene-Based Polymers
Silylethynyl Heteroacene-Based Photovoltaics
Conclusion
CONJUGATED SEMICONDUCTORS FOR ORGANIC n-CHANNEL TRANSISTORS AND COMPLEMENTARY CIRCUITS
Introduction
Basics of Field-Effect Transistors and Complementary Circuits
Material Design and Needs for n-Channel OTFTs
n-Channel Semiconductors for OTFTs
Conclusions and Outlook
LOW-VOLTAGE ELECTROLYTE-GATED OTFTs AND THEIR APPLICATIONS
Overview
Introduction to Electrolyte-Gated Organic Transistors
Applications of Electrolyte-Gated Organic Transistors
Conclusions and Outlook
PART II: Manufacturing
PRINTING TECHNIQUES FOR THIN-FILM ELECTRONICS
The Motivation for Printing of Thin-Film Electronic Devices
Requirements for Printing Techniques for Electronic Fabrication
A Survey of Printing Techniques for Printed Electronics
Pattern Formation During Printing
Printed Device Considerations
PICOLITER AND SUBFEMTOLITER INK-JET TECHNOLOGIES FOR ORGANIC TRANSISITORS
Introduction
Silver Nanoparticle Ink
Ink-Jet Technologies with Pico- and Subfemtoliter Accuracies
Manufacturing Processes and Electrical Characteristics of Organic Transisitors
Discussion and Future Prospects of Large-Area Printed Electronics
INK-JET PRINTING OF DOWNSCALED ORGANIC ELECTRONICS DEVICES
Introduction
Ink-Jet Printing: Technologies, Tools, and Materials
High-Resolution Printing of Highly Conductive Electrodes
Printing of Downscaled Organic Thin Film Transistors
Conclusions and Outlook
INTERPLAY BETWEEN PROCESSING, STRUCTURE, AND ELECTRONIC PROPERTIES IN SOLUBLE SMALL-MOLECULE ORGANIC SEMICONDUCTORS
Introduction
Transport Limits in Crystalline Semiconductors
Structure-Processing-Properties Relationship in Small-Molecule Organic Thin-Film Transistors
Advanced Film Processing
Summary
PART III: Applications
LIGHT-EMITTING ORGANIC TRANSISTORS
Introduction
Unipolar Light-Emitting FETs
Ambipolar Light-Emitting FETs
Other Field-Effect-Based Light-Emitting Devices
Conclusions
DESIGN METHODOLOGIES FOR ORGANIC RFID TAGS AND SENSOR READOUT ON FOIL
Introduction
Organic RFID Tags
Transistor-Level Design with Organic Transistors
Conclusions
