SDK to Produce Large Area Organic EL Panels, Using Innovative Phosphorescent Polymer Technology.Tokyo, Japan, Feb 14, 2007 - (JCN JCN Japan Corporate News JCN Journal of Cognitive Neuroscience JCN Journal of Cardiovascular Nursing JCN Journal of Christian Nursing JCN Job Control Number JCN Journal of Child Neurology JCN joint communications network (US DoD) Newswire) - Showa Denko Showa Denko K. K. (昭和電工株式会社 K.K. (SDK (Software Developer's Kit) See developer's toolkit and Windows SDK. SDK - Software Developers Kit (or "Software Development Kit"). ) has made remarkable progress in its development of organic electroluminescent See electroluminescence and EL display. (organic EL) device technology based on an innovative singlelayer organic electroluminescent devices based on phosphorescent phos·pho·res·cence n. 1. Persistent emission of light following exposure to and removal of incident radiation. 2. Emission of light without burning or by very slow burning without appreciable heat, as from the slow oxidation of polymer materials, achieving the world's highest external quantum efficiency of 17% for green light and 16% for blue light, respectively, with durability of 350,000 hours (initial luminance The amount of brightness, measured in lumens, that is given off by a pixel or area on a screen. For example, dark red and bright red would have the same chrominance, but a different luminance. : 100 cd/m2). SDK is also developing a large surface-emission panel based on this polymer technology and will build a trial volume-production line by the middle of this year. Quantum efficiency means the rate at which energy input is finally taken out as light. Theoretically, the maximum quantum efficiency for phosphorescent organic EL device is 20%. While fluorescent organic EL devices are already available on the market for mobile phone display applications, phosphorescent organic EL devices, which are yet to be commercialized, can theoretically produce four times higher emissive e·mis·sive adj. Having the power or tendency to emit matter or energy; emitting. efficiency, resulting in about one-fourth electricity consumption. SDK has achieved a breakthrough by developing a new copolymer copolymer: see polymer. - in which phosphorescent substance and other materials are mixed - realizing highest-level emissive efficiency in the industry today. Although low-molecular-weight-compound-based organic EL devices need to be produced at under vacuum, polymer-based organic EL devices can be produced under less expensive, normal conditions
While organic EL devices are generally developed for high-precision display applications, including mobile phones and large-screen TVs, SDK is aiming to develop advertisement and display applications, fully utilizing the advantages of high emissive efficiency, long durability and large area-emission due to the proprietary phosphorescent copolymer. SDK is planning to achieve annual sales of 10 billion Yen from this product in 2010. Under the Passion Project, SDK is developing new product lines that will ensure future growth in addition to the established growth driver businesses (hard disk media and semiconductor-processing materials) and new growth drivers (ultra bright LEDs and carbon nanofibers). To accelerate development, SDK will focus its resources on the six selected market areas, or strategic market units (SMUs), including displays and illumination modules. About Showa Denko K.K. Showa Denko K.K. ('SDK'; TSE See Tokyo Stock Exchange. TSE 1. See Tokyo Stock Exchange (TSE). 2. See Toronto Stock Exchange (TSE). : 4004, US: SHWDF) is a major manufacturer and marketer of chemical products serving a wide range of fields ranging from heavy industry to the electronic and computer industries. SDK makes petrochemicals (ethylene, propylene propylene /pro·pyl·ene/ (pro´pi-len) a gaseous hydrocarbon, CH3CHdbondCH2. propylene glycol a colorless viscous liquid used as a humectant and solvent in pharmaceutical preparations. ), aluminum products (ingots, rods), electronic equipment (hard disks for computers) and inorganic materials (ceramics, carbons). The company has overseas operations and a joint venture with Netherlands-based Montell and Nippon Petrochemicals to make and market polypropylenes. In March 2001, SDK merged with Showa Denko Aluminum Corporation to strengthen the high-value-added fabricated aluminum products operations, and is today developing next-generation optical communications-use wafers. For more information, please visit www.sdk.co.jp. Source: Showa Denko K.K. Contact: Showa Denko K.K. IR & PR Office Nobuhiro Kato nobuhiro_kato@sdk.co.jp +81-3-5470-3235 Copyright [c] 2007 JCN Newswire. All rights reserved. A division of Japan Corporate News Network K.K. |
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