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Physical and Chemical Aspects of Organic Electronics From Fundamentals to Functioning Devices 1st Edition by Christof Woll 9783527408108 352740810X

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Organic Electronics Structural and Electronic Properties of OFETs Physical and Chemical Aspects of Organic Electronics 1st Edition Wöll Christof. (Ed.) Digital Instant Download

Author(s): Wöll Christof. (ed.)
ISBN(s): 9783527408108, 352740810X
Edition: 1
File Details: PDF, 21.01 MB
Year: 2009
Language: english
SKU: EB-1670748 Category: Tag:

Physical and Chemical Aspects of Organic Electronics From Fundamentals to Functioning Devices 1st Edition by Christof Woll – Ebook PDF Instant Download/Delivery: 9783527408108, 352740810X

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Product details:

ISBN 10: 352740810X

ISBN 13: 9783527408108

Author: Christof Woll

Organic molecules are currently being investigated with regard to their application as active components in semiconductor devices. Whereas devices containing organic molecules for the generation of light – organic light emitting diodes (OLED) – have already reached the market (they e.g. display information on mobile phones), transistors where organic molecules are used to actively control currents and voltages are still in the development stage.
In this book the principle problems related to using organic materials as semiconductors and to construct functioning devices will be addressed.
A particular emphasis will be put on the difference between inorganic semiconductors such as Si, Ge and GaAs and organic semiconductors (OSC). The special properties of such soft matter require particular approaches for processing characterization and device implementation, which are quite different from the approach used for conventional semiconductors. 

Table of contents:

Section I: Industrial Applications

  • Chapter 1 Organic Transistors as a Basis for Printed Electronics

  • Chapter 2 Printable Electronics: Flexibility for the Future

Section II: Molecular Compounds

  • Chapter 3 Fluorinated Phthalocyanines as Molecular Semiconductor Thin Films

  • Chapter 4 Novel Organic Semiconductors and Processing Techniques for Organic Field-Effect Transistors

  • Chapter 5 Assembly, Structure, and Performance of an Ultra-Thin Film Organic Field-Effect Transistor (OFET) Based on Substituted Oligothiophenes

  • Chapter 6 Organic Transistors Utilising Highly Soluble Swivel-Cruciform Oligothiophenes

Section III: Structural and Morphological Aspects

  • Chapter 7 Chemical Approaches to the Deposition of Metal Electrodes onto Self-Assembled Monolayers – A Step Towards the Fabrication of SAM-Based Organic Field-Effect Transistors

  • Chapter 8 Growth Morphologies and Charge Carrier Mobilities of Pentacene Organic Field Effect Transistors with RF Sputtered Aluminium Oxide Gate Insulators on ITO Glass

  • Chapter 9 In Situ X-Ray Scattering Studies of OFET Interfaces

  • Chapter 10 X-Ray Structural Studies of Low and High Molecular Weight Poly(3-Hexylthiophene)

  • Chapter 11 Molecular Beam Deposition and Characterisation of Thin Organic Films on Metals for Applications in Organic Electronics

  • Chapter 12 Fundamental Interface Properties in OFETs: Bonding, Structure and Function of Molecular Adsorbate Layers on Solid Surfaces

  • Chapter 13 Metal/Organic Interface Formation Studied In Situ by Resonant Raman Spectroscopy

  • Chapter 14 Development of Single-Crystal OFETs Prepared on Well-Ordered Sapphire Substrates

Section IV: Device Performance and Characterisation

  • Chapter 15 Pentacene Devices: Molecular Structure, Charge Transport and Photo Response

  • Chapter 16 Characteristics and Mechanisms of Hysteresis in Polymer Field-Effect Transistors

  • Chapter 17 Ambipolar Charge Carrier Transport in Organic Semiconductor Blends

  • Chapter 18 Gate Dielectrics and Surface Passivation Layers for Organic Field Effect Transistors

  • Chapter 19 Influence of Metal Diffusion on the Electronic Properties of Pentacene and Diindenoperylene Thin Films

  • Chapter 20 Potentiometry on Pentacene OFETs: Charge Carrier Mobilities and Injection Barriers in Bottom and Top Contact Configurations

  • Chapter 21 Microscopic and Spectroscopic Characterisation of Interfaces and Dielectric Layers for OFET Devices

  • Chapter 22 Scaling Limits and MHz Operation in Thiophene-Based Field-Effect Transistors

  • Chapter 23 Aluminium Oxide Film as Gate Dielectric for Organic FETs: Anodisation and Characterisation

  • Chapter 24 Electronic States at the Dielectric/Semiconductor Interface in Organic Field-Effect Transistors

  • Chapter 25 Aspects of the Charge Carrier Transport in Highly-Ordered Crystals of Polyaromatic Molecules

Section V: Novel Devices

  • Chapter 26 Carbon Nanotube Transistors – Chemical Functionalisation and Device Characterisation

  • Chapter 27 Contact Effects in Cu(TCNQ) Memory Devices

  • Chapter 28 Organic Field-Effect Transistors for Spin-Polarised Transport

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