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Monday, July 27, 2020 | History

3 edition of Organic electroluminescent materials and devices found in the catalog.

Organic electroluminescent materials and devices

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Published by Gordon and Breach Publishers in Amsterdam .
Written in English

    Subjects:
  • Electroluminescence.,
  • Electroluminescent devices -- Materials.,
  • Organic electrochemistry.,
  • Organic photochemistry.

  • Edition Notes

    Includes bibliographical references and index.

    Statementedited by Seizo Miyata and Hari Singh Nalwa.
    ContributionsMiyata, Seizō, 1941-, Nalwa, Hari Singh, 1954-
    Classifications
    LC ClassificationsQC480 .O74 1997
    The Physical Object
    Paginationx, 487 p., 12 p. of plates :
    Number of Pages487
    ID Numbers
    Open LibraryOL6811378M
    ISBN 102919875108
    LC Control Number00278335
    OCLC/WorldCa37507224

    Covers recent progress and developments on the electroluminescent and photoluminescent properties of fullerene, chelate metal compounds, polythiophenes, poly (p-phylene vinylenes), polyxadiazoles, poly (vinyl carbazoles), polysilanes and many other organic materials. A wide range of organic electroluminescent materials and their based technologies are discussed by leading experts . ORGANIC ELECTROLUMINESCENT MATERIALS AND DEVICES. Cite. Download. Share. Tweet. Email. Patent: US ORGANIC ELECTROLUMINESCENT MATERIALS AND DEVICES. USPTO. 5 Patent Abstract. Help. New Window. A composition comprising a first compound and a second compound is described. The composition can be a mixture of a first compound having a.

    In a collaboration with Professor James Sturm (Electrical Engineering) and Professor Mark Thompson (Chemistry, USC), we developed a range of electroluminescent (EL) polymer materials for flat panel displays. Such emissive display technology has the potential to be ten times as efficient as liquid-crystal displays, and could revolutionize the world of portable electronic.   A simple organic electroluminescent diode by D.F. Williams and M. Schadt. Proceedings of the IEEE (Volume: 58, Issue: 3, March ). See also their related US Patent 3,, Electroluminescent device with light emitting aromatic, hydrocarbon material.

    As a result, all the four important aspects of OLEDs are covered: syntheses of the organic materials - physical theory of electroluminescence and device efficiency - device conception and construction - characterization of both materials and devices. The whole is naturally rounded off with a look at what the future holds in store. Examples of electroluminescent materials. Electroluminescent devices are fabricated using either organic or inorganic electroluminescent materials. The active materials are generally semiconductors of wide enough bandwidth to allow exit of the light. The most typical inorganic thin-film EL (TFEL) is ZnS:Mn with yellow-orange emission.


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Organic electroluminescent materials and devices Download PDF EPUB FB2

Electroluminescent materials glow in a full colour range, including white, green, blue, red and violet. Their usefulness in panel displays, backlights of liquid crystal displays, indicator lights, and as a light source for optical communications is by: Publisher of Humanities, Social Science & STEM Books Skip to main content.

Organic Electroluminescent Materials and Devices By Seizo Miyata. First Published Hardback $ Organic Electroluminescent Materials and Devices. ISBN | Quantity: Shopping Cart Summary. The organic semiconductor has been paid for widespread concerns because it can be curled to form a film due to its flexibility and printability resulting from its high solubility in solvents, therefore the processing cost may be greatly reduced.

Considering the poorness of effective electron transport materials and the dilemma of wide energy gap with high electron mobility for organic Cited by:   Book Description. Organic Light-Emitting Materials and Devices provides a single source of information covering all aspects of OLEDs, including the systematic investigation of organic light-emitting materials, device physics and engineering, and manufacturing and performance measurement Second Edition is a compilation of the advances made in recent years and of the.

Photoluminescent Materials and Electroluminescent Devices. Editors: Armaroli, Nicola, Bolink, Henk J. (Eds Metal–Organic and Organic TADF-Materials: Status, Challenges and Characterization.

*immediately available upon purchase as print book shipments may be delayed due to the COVID crisis. ebook access is temporary and does not. In general, an electroluminescent structure is composed of the four following layers, as observed in Fig.

two organic or inorganic electroluminescent materials, one of them able to emit electrons and the other able to emit electron holes, and two electroluminescent material can be organic or inorganic [3].At least one of the electrodes has to be transparent.

Luminescent Materials and Applications describes a wide range of materials and applications that are of current interest including organic light emitting materials and devices, inorganic light emitting diode materials and devices, down-conversion materials, nanomaterials, and powder and thin-film electroluminescent phosphor materials and.

The compound of formula (I) of the present invention has improved thermal and thin film stability which can be advantageously used in the manufacture of an organic electroluminescent device having improved properties in terms of luminous efficiency, operation stability, color purity, and life time.

USB1 - Organic electroluminescent materials and devices - Google Patents Organic electroluminescent materials and devices Download PDF Info. The monograph focuses on the optoelectronic behavior of organic solids and their application in new optoelectronic devices.

It covers organic field-effect and organic electroluminescent materials and devices, organic photonics, materials and devices, as well as organic solids in photo absorption and energy conversion.

organic electroluminescent materials and devices Apr 6, - Universal Display Corporation Disclosed is an OLED configuration that although comprises an exciplex that has an emission spectrum that is redder than the emission spectrum of the emitter, the emission from the exciplex is suppressed so that the overall OLED emission spectrum is.

Electroluminescence from organic materials has the potential to enable low-cost, full-color flat-panel displays, as well as other emissive products. Some materials have now demonstrated adequate efficiencies (1 to 15 lumens/watt) and lifetimes (> hours) for practical use; however, the factors that govern lifetime remain poorly understood.

This article provides a brief review of device. Zeev Valy Vardeny, in Handbook of Organic Materials for Electronic and Photonic Devices (Second Edition), Experimental methods and results The MEL and MC measurements in OLEDs have been generally conducted on devices with a typical area of 5 mm 2, where the organic spacers are deposited on a hole transport layer: poly(3,4.

CROSS-REFERENCE TO RELATED APPLICATIONS. This application claims priority under 35 U.S.C. § (e) to U.S. Provisional Application No. 62/, filed on Feb. 1,the enti. A novel electroluminescent device is constructed using organic materials as the emitting elements.

The diode has a double‐layer structure of organic thin films, prepared by vapor deposition. Efficient injection of holes and electrons is provided from an indium‐tin‐oxide anode and an alloyed Mg:Ag cathode. Electron‐hole recombination and green electroluminescent emission are.

High-efficiency organic electroluminescent materials based on the D–A–D type with sterically hindered methyl groups† Youming Zhang, ab Xuan Zhou, ac Changjiang Zhou, b Qiang Su, d Shuming Chen,* d Jun Song c and Wai-Yeung Wong * a.

Organic Light-Emitting Materials and Devices, Second Edition offers a comprehensive overview of the OLED field and can serve as a primary reference for those needing additional information in any particular subarea of organic electroluminescence. This book should attract the attention of materials scientists, synthetic chemists, solid-state.

One of the requirements for efficient organic electroluminescent devices (OLEDs) is balanced charge injection from the two electrodes and efficient transport of both holes and electrons within the luminescent layer in the device structure.

Many of the common luminescent conjugated polymers, e.g. derivatives. ISBN: OCLC Number: Description: x, pages, 12 pages of plates: illustrations (some color) ; 26 cm: Contents: Electronic processes in organic electroluminescence; mono- and heterolayer polymeric light emitting diodes based on poly(p-phenylene vinylene) and oxadiazole polymers; making polymer light emitting diodes with polythiophenes; thin film.

The book compiles information on the synthesis, properties, and device performance of nearly 1, organic small molecule- and polymer-based electroluminescent materials. It also investigates practical manufacturing techniques for OLED fabrication as well as methods used for microstructural characterization, performance measurement, and defect.

By further optimizing device structures and surrounding materials, as seen for phosphoresc49 and TADF-based 40 OLEDs, DACT-II devices are expected to deliver much higher performance, such.Search within book. Front Matter. Pages i-ix Metal–Organic and Organic TADF-Materials: Status, Challenges and Characterization.

Larissa Bergmann, Daniel M. Zink, Stefan Bräse, Thomas Baumann, Daniel Volz Electroluminescent devices Inorganic phosphor materials Ir complexes for OLEDs LEC devices LED devices Luminescent polymers Near.Organic Light-Emitting Materials and Devices Zhigang Li and Hong Meng Taylor & Francis CRC Press • pp • ISBN: X $ / £ / The current understanding of molecular design in the area of light-emitting organic materials is presented in this book.

It reveals the most stable and efficient electroluminescent.