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Wednesday, July 15, 2020 | History

5 edition of Organic light-emitting materials and devices VI found in the catalog.

Organic light-emitting materials and devices VI

8-10 July, 2002, Seattle, Washington, USA

  • 326 Want to read
  • 20 Currently reading

Published by SPIE in Bellingham, Washington .
Written in English

  • Light emitting diodes -- Congresses.,
  • Electroluminescent display systems -- Congresses.,
  • Electroluminescent devices -- Materials -- Congresses.,
  • Organic compounds -- Congresses.

  • Edition Notes

    Includes bibliographic references and author index.

    StatementZakya H. Kafafi, Homer Antoniadis, chairs/editors ; sponsored and published by SPIE--the International Society for Optical Engineering ; cooperating organizations, the Boeing Company (USA) ... [et al.].
    SeriesSPIE proceedings series ;, v. 4800, Proceedings of SPIE--the International Society for Optical Engineering ;, v. 4800.
    ContributionsKafafi, Zakya H., Antoniadis, Homer., Society of Photo-optical Instrumentation Engineers., Boeing Company.
    LC ClassificationsTK7871.89.L53 O745 2003
    The Physical Object
    Paginationviii, 276 p. :
    Number of Pages276
    ID Numbers
    Open LibraryOL3317717M
    ISBN 100819445681
    LC Control Number2004266825

    Organic light-emitting transistors (OLETs) combine the switching properties of a transistor with the emission properties of a light-emitting diode in a single device. Such multifunctional devices can potentially simplify the circuitry for displays and can provide very . Proc. SPIE , Organic Light-Emitting Materials and Devices VI, pg 1 (3 March ); doi: / Read Abstract + An overview of the requirements for full color passive matrix displays and their implications for the light emitting materials will be presented.

    Revised and fully updated, the second edition of this graduate textbook offers a comprehensive explanation of the technology and physics of LEDs such as infrared, visible-spectrum, ultraviolet, and white LEDs made from III-V semiconductors. Elementary properties such as electrical and optical characteristics are reviewed, followed by the analysis of advanced device structures. With nine. Colloidal Quantum Dot Optoelectronics and Photovoltaics - edited by Gerasimos Konstantatos November Colloidal quantum dot light emitting devices. By Vanessa Wood, Matthew Panzer V. Bulović, Electronic and excitonic processes in light-emitting devices based on organic materials and colloidal quantum dots. Physical Review B, Cited by:

    H01L51/00 — Solid state devices using organic materials as the active part, that includes a terminal (mobile computer, mobile phone, portable game machine, electronic book, etc.) and a recording medium, and displays the image And a device provided with a display device capable of performing the above. Light emitting element, light Cited by: H01L51/50 — Solid state devices using organic materials as the active part, or using a combination of organic materials with other materials as the active part; Processes or apparatus specially adapted for the manufacture or treatment of such devices, or of parts thereof specially adapted for light emission, e.g. organic light emitting diodes.

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Organic light-emitting materials and devices VI Download PDF EPUB FB2

Organic Light-emitting Materials and Devices VI (Proceedings of Spie) [Kafafi, Zakya H., Antoniadis, Homer] on *FREE* shipping on qualifying offers. Organic Light-emitting Materials and Devices VI (Proceedings of Spie)Cited by: 2.

Recent developments, however, make it possible to manufacture organic light-emitting devices that are thin, bright, efficient, and stable and that produce a broad range of colors.

This book surveys the current status of the field. It begins with an overview of the physics and chemistry of organic light emitting devices by J. Shinar and V 5/5(1). Organic Light-Emitting Transistors: Towards the Next Generation Display Technology serves as a reference for researchers, technology developers and end-users to have a broad view of the distinguishing features of the OLET technology and to profile the impact on.

Read "Organic Light-Emitting Devices A Survey" by available from Rakuten Kobo. Although it has long been possible to make organic materials emit light, it has only recently become possible to do so a Brand: Springer New York.

Conducting polymer-based organic LEDs (OLEDs) and other devices is the alternative for futuristic devices. In fact the work started extensively after Alan G Mac Diarmid, Alan J.

Heeger, and Hideki Shirkawa received noble prize in the year for their research on Cited by: 3. ISBN: OCLC Number: Description: viii, pages: illustrations ; 28 cm. Contents: Polymers and light-emitting devices --Organic emissive displays --OLEDs for solid-state lighting --Molecular OLEDs based upon metal complexes and doped layers --Carrier transporting and luminescent polymers --New fabrication and characterization techniques --Spectroscopy and.

5 Metal/Polymer Interface Studies for Organic Light-Emitting Devices Man-Keung Fung, Chun-Sing Lee, and Shuit-Tong Lee Review of Organic Light-Emitting Diodes and their Fundamental Interface Studies Polymer Materials, their Preparations, and Experimental Details Chemistry and Electronic Properties of Metal/F8BT   This outstanding textbook provides an introduction to electronic materials and device concepts for the major areas of current and future information technology.

On about 1, pages, it collects the fundamental concepts and key technologies related to advanced electronic materials and devices. The obvious strength of the book is its encyclopedic character, providing adequate Author: Rainer Waser. Multinary semiconductor nanoparticles such as CuInS2, AgInS2, and the corresponding alloys with ZnS hold promise for designing future quantum dot light-emitting devices (QLED).

The QLED architectures require matching of energy levels between the different electron and hole transport layers. In addition to energy level alignment, conductivity and charge transfer interactions within these layers Cited by: Request PDF | Solution-Processed Organic Light-Emitting Devices | Recent progresses on materials and device structures for solution-processed organic light-emitting devices (OLEDs) are discussed.

The application of organic light-emitting devices to reduce the energy consumption of interior lighting, which now costs more than $ billion annually1, is attracting interest due to the high. The first emitting organic material was observed by Pope et.

al and led researchers to investigate organic materials as light-emitting devices []. The working principles of these devices are similar to normal LEDs with the difference that an organic compound is used as an emissive : S.H.

Mousavi, S.A. Jafari Mohammdi, H. Haratizadeh, P.W. deOliveira. Organic light-emitting diodes (OLEDs) is a standard reference for engineers working in lighting, display technology and the consumer electronics sectors, as well as those researching OLEDs.

Summarises key research on the materials, engineering and applications of OLEDs. Although it has long been possible to make organic materials emit light, it has only recently become possible to do so at the level and with the efficiency and control necessary to make the materials a useful basis for illumination in any but the most specialized uses.

This book surveys the current status of. Get this from a library. Organic light-emitting materials and devices VI: July,Seattle, Washington, USA.

[Zakya H Kafafi; Homer Antoniadis; Society of Photo-optical Instrumentation Engineers.; Boeing Company.; SPIE Digital Library.;]. Lee "Organic Light-Emitting Devices A Survey" por disponible en Rakuten Kobo.

Although it has long been possible to make organic materials emit light, it has only recently become possible to do so a Brand: Springer New York. In this paper, we report two new phenanthroline-based compounds, 1,4-bis(2-phenyl-1,phenanthrolinyl)benzene (p-bPPhenB) and 1,3-bis(2-phenyl-1,phenanthrolinyl)benzene (m-bPPhenB), for the charge generation unit of tandem organic light-emitting diodes (OLEDs).

These two compounds exhibited high electron mobility of (–) × 10–3 cm2/(V s), a very small injection barrier at Cited by: Organic Light Emitting Devices: Synthesis, Properties and Applications This high-class book reflects a decade of intense research, culminating in excellent successes over the last few years.

The contributions from both academia as well as the industry leaders combine the fundamentals and latest research results with application know-how and.

Organic light-emitting diodes (OLEDs) are opening up exciting new applications in the area of white lighting and displays. OLEDs have low power consumption, as they emit their own light. They are made of flexible films, which allow them to be used for curved displays.

The methods considered so far yield a mobility that is a bulk property of the material. In an organic FET the coplanar arrangement of the source and drain electrodes enables the source-drain current l D to be measured as a function of the gate voltage V g applied perpendicularly to a source-drain voltage V d (Veres et al., ).The organic layer is insulated from the gate by a dielectric Cited by: 1.

Organic light emitting diodes (OLEDs) have been the focus of intense study since the late s, when the low voltage organic electroluminescence in small organic molecules such as Alq3, and large organic molecules such as polymers (PPV), was reported. Since that time, research has continued to demonstrate the potential of OLEDs as viable systems for displays and eco-friendly lighting Cited by: 4.Inorganic-organic hybrid materials based on IB-VIIA binary compound have been studied for decades because of their unique photophysical and photochemical properties originating from the d 10 electronic configuration of the IB metal atoms, leading to a variety of applications for light emitting devices, sensing devices, solar cells, and Cited by: 4.This book systematically introduces the most important aspects of organic semiconductor heterojunctions, including the basic concepts and electrical properties.

It comprehensively discusses the application of organic semiconductor heterojunctions as charge injectors and charge generation layers in organic light-emitting diodes (OLEDs).