Last edited by Tajar
Monday, August 3, 2020 | History

1 edition of Organic field-effect transistors IX found in the catalog.

Organic field-effect transistors IX

Zhenan Bao

Organic field-effect transistors IX

2-4 August 2010, San Diego, California, United States

by Zhenan Bao

  • 71 Want to read
  • 17 Currently reading

Published by SPIE in Bellingham, Wash .
Written in English

    Subjects:
  • Thin film transistors,
  • Organic semiconductors,
  • Congresses,
  • Field-effect transistors

  • Edition Notes

    Includes bibliographical references.

    Other titlesOrganic field-effect transistors 9, Organic field-effect transistors nine
    StatementZhenan Bao, Iain McCulloch, editors ; sponsored by SPIE ; cosponsored by H. C. Starck Clevios GmbH (Germany) ... [et al.].
    SeriesProceedings of SPIE -- v. 7778, Proceedings of SPIE--the International Society for Optical Engineering -- v. 7778.
    ContributionsSPIE (Society)
    Classifications
    LC ClassificationsTK7871.95 .O7336 2010
    The Physical Object
    Pagination1 v. (various pagings) :
    ID Numbers
    Open LibraryOL25341915M
    ISBN 100819482749
    ISBN 109780819482747
    LC Control Number2012398524
    OCLC/WorldCa694367451

    The global Organic Field-effect Transistor. Why QYR? Sign In. Call. Beijing +86 USA +1 India +91 Membership Contact Us. EN. CN Toggle navigation. Industries Services Media Discover QYR Special Corner 0 x. Home Electronics & Semiconductor Global and Japan Organic Field effect. The interest for Organic Field Effect Transistors (OFETs) has drastically increased over the past few years, and they have been intensively studied for many applications such as displays, smart tags and reason for focused research interest in the field of “plastic electronics” is the opportunity to produce low cost devices on plastic substrates on large .

    Field effect transistors (FETs) are the basis for all electronic circuits and processors, and the ability to create FETs from organic materials[] raises exciting possibilities for low cost disposable electronics such as ID tags and smart barcodes. The molecular nature of organic semiconductors allows sub-. Organic field-effect transistors (OFETs) are attracting more and more attention due to their potential applications in low-cost, large-area and flexible electronic products. Organic semiconductors (OSCs) are the key components of OFETs and basically determine the device performance. The past five years have witnessed great progress of OSCs.

    Here we examine their application to organic field-effect transistors (OFETs): after a short introduction in Sect. we introduce the OFET configuration and show how the mobility is measured in Sect. Section discusses polymeric liquid crystalline semiconductors in .   Driven by a demand for low-cost, large-area and flexible electronics, organic field-effect transistors (OFETs) draw significant interest and are discussed as fundamental building block for flexible displays [] and wearable sensors [].Based on an increased microscopic understanding of charge transport in organic materials, organic semiconductors with a .


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Organic field-effect transistors IX by Zhenan Bao Download PDF EPUB FB2

Organic Field-Effect Transistors IX Editor(s): Zhenan Bao ; Iain McCulloch For the purchase of this volume in printed format, please visit Organic Field Effect Transistors discusses the fundamental mechanisms that apply to OFETs fabrication, operation, and characterization.

This unique book presents the state-of-the-art in organic field effect transistors (OFETs) with a particular focus on the materials and techniques useful for making integrated by:   Exploring one class of OTFTs, Organic Field-Effect Transistors provides a comprehensive, multidisciplinary survey of the present theory, charge transport studies, synthetic methodology, materials characterization, and current applications of organic field-effect transistors (OFETs).

Exploring one class of OTFTs, Organic Field-Effect Transistors provides a comprehensive, multidisciplinary survey of the present theory, charge transport studies, synthetic methodology, materials characterization, and current applications of organic field-effect transistors (OFETs).Cited by:   Organic field-effect transistors 9 Organic field-effect transistors nine: Responsibility: Zhenan Bao, Iain McCulloch, editors ; sponsored by SPIE ; cosponsored by H.C.

Starck Clevios GmbH (Germany) [and others]. Exploring one class of OTFTs, Organic Field-Effect Transistors provides a comprehensive, multidisciplinary survey of the present theory, charge transport studies 5/5(2). Exploring one class of OTFTs, Organic Field-Effect Transistors provides a comprehensive, multidisciplinary survey of the present theory, charge transport studies, synthetic methodology, materials characterization, and current applications of organic field-effect transistors (OFETs).Covering various aspects of OFETs, the book begins with a theoretical description of charge transport in organic.

Brand new Book. Organic Field Effect Transistors presents the state of the art in organic field effect transistors (OFETs), with a particular focus on the materials and techniques useful for making integrated circuits.

Book Description. The remarkable development of organic thin film transistors (OTFTs) has led to their emerging use in active matrix flat-panel displays, radio frequency identification cards, and sensors.

Exploring one class of OTFTs, Organic Field-Effect Transistors provides a comprehensive, multidisciplinary survey of the present theory, charge transport studies, synthetic methodology, materials characterization, and current applications of organic field-effect transistors.

Organic Field Effect Transistors is written as a basic introduction to the subject for practitioners. It will also be of interest to researchers looking for references and techniques. Organic field-effect transistors (OFETs) are basic elements for organic electronic circuits and provide information on charge transport properties of π-conjugated oligomers and polymers (MT28).

The first report on the electrical conduction of π-conjugated systems dates back to (PRL). Overcoming these challenges relies on the novel organic semiconductor development and device optimization. In this chapter, organic field-effect transistors will be discussed from three aspects: the device physics, device materials, and device processing.

Organic field effect transistors (OFETs) emerged in the late s (Burroughes et al.Horowitz et al. ) almost simultaneously with OLEDs. Owing to their limited performance, OFETs are far from competing with silicon-based microelectronics.

However, single crystalline silicon is an expensive and brittle material. Heterogeneous interfaces that are ubiquitous in optoelectronic devices play a key role in the device performance and have led to the prosperity of today’s microelectronics.

Interface engineering provides an effective and promising approach to enhancing the device performance of organic field-effect transistors (OFETs) and even developing new functions.

In fact. This review focuses on the advancements of using organic field-effect transistors (OFETs) in flexible electronic applications in the past 10 years.

In addition, to the above mentioned features, OFETs have multiple advantages such as low-cost, readout integration, large-area coverage, and power efficiency, which yield synergy.

(Midwest Book Reviews, 1 November ) Author Bios. Fabio Cicoira (Ph.D. in Materials Science and Engineering) is a professor of Chemical Engineering at Ecole Polytechnique in Montreal, Canada.

He is known for his studies of organic field-effect transistors, growth of organic semiconductors and organic electrochemical transistors. Written by internationally recognized experts in the field with academic as well as industrial experience, this book concisely yet systematically covers all aspects of the topic.

The monograph focuses on the optoelectronic behavior of organic solids and their application in new optoelectronic devices. Charge Transport and Charge Injection Charge Carrier Transport in Single-Crystal Organic Field-Effect Transistors --Vitaly Podzorov --Department of Physics and Astronomy, Rutgers University, Piscataway, New JerseyUSA Introduction: The Field Effect in Small-Molecule Organic --Semiconductors An organic field-effect transistor is a field-effect transistor using an organic semiconductor in its channel.

OFETs can be prepared either by vacuum evaporation of small molecules, by solution-casting of polymers or small molecules, or by mechanical transfer of a peeled single-crystalline organic layer onto a substrate.

These devices have been developed to realize low-cost, large. Organic Field Effect Transistors discusses the fundamental mechanisms that apply to OFETs fabrication, operation, and characterization.

This unique book presents the state-of-the-art in organic field effect transistors (OFETs) with a particular focus on the materials and techniques useful for making integrated circuits.

This book provides comprehensive coverage of the materials characteristics, process technologies, and device operations for memory field-effect transistors employing inorganic or organic ferroelectric thin films.

This transistor-type ferroelectric memory has interesting fundamental device physics and potentially large industrial impact.Polymer-based gate dielectrics have received growing attention due to their important role in field-effect transistors (OFETs).

This review article aims to present the recent progress of polymer dielectrics for high-performance OFET applications. We first discuss the requirements for polymer dielectrics in tailoring the overall performance of OFETs from the perspective of both .Organic field-effect transistors (OFETs) are fundamental building blocks for flexible and large-area electronics due to their superior solution-processability, flexibility and stretchability.

OFETs with high ideality are essential to their practical applications. In reality, however, many OFETs still suffer Recent Review Articles.