Showa Denko Develops New Crystal Growth Technology for GaN-based Blue/White LEDs.Tokyo, Japan, Feb 20, 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 developed a new process for making high-quality compound semiconductors based on gallium nitride (GaN) and other nitrides to meet growing demand mainly for use in blue/white LEDs. The new process, named the "Hybrid PPDTM process," is a combination of the conventional metal organic chemical vapor deposition (MOCVD MOCVD Metallo Organic Chemical Vapor Deposition MOCVD Metal Oxide Chemical Vapor Deposition ) process and SDK's proprietary plasma assisted physical deposition (PPDTM) process for growing nitride-based semiconductor crystals. The new process technology enables the production of four-inch epitaxial wafers with high quality, which is not possible with the conventional MOCVD process. SDK has also succeeded, using the Hybrid PPD (1) (Parallel Presence Detect) The method used by earlier SIMM memory modules to communicate their capacity to the computer. A binary number coming from a parallel set of pins was read by the system, with each pin representing one bit. Contrast with SPD. process, in developing blue LEDs with the highest-level brightness on the market today. SDK will start commercial shipments of these blue LEDs within this year. Furthermore, SDK has decided to build a facility at its site in Chiba, Japan, to produce four-inch epitaxial wafers based on the new process technology. Due to the larger size of wafers under the new technology and the construction of the new line, SDK's blue LED production capacity will be increased, from 30 million units a month at present, to 100 million units a month by the end of this year. Under the ongoing medium-term consolidated business plan, the Passion Project, SDK is aggressively expanding its ultra bright LED business, centering on GaN-based semiconductors. SDK aims to strengthen its presence in the growing LCD backlighting back·light n. A type of spotlight, used in photography, that illuminates a subject from behind. tr.v. back·light·ed or back·lit , back·light·ing, back·lights and general illumination markets on the strength of the new process technology and further development of compound semiconductors of other colors and wavelengths, having still higher brightness and power. Outline of the new hybrid PPD process While GaN-based blue/white LEDs (typical nitride-based compound semiconductors) are already superior to other light sources (ex. incandescent lamp, cold-cathode tube) in terms of illuminant il·lu·mi·nant n. Something that gives off light. [Latin ill  min efficiency,
there is a need for new technology for mass production of high-quality
epitaxial wafers.SDK's new Hybrid PPD process ensures substantially higher production efficiency, enabling the manufacture of four-inch epitaxial wafers with improved crystal quality. Meanwhile, SDK's Hybrid PPD process, based on the epitaxial growth technology accumulated over many years, provides layers of high-quality crystals and provides higher production efficiency compared with the conventional MOCVD process. SDK has applied for more than 30 patents for the Hybrid PPD process technology. When analyzed by the X-ray rocking curve (XRC XRC Exeter Resource Corporation (stock symbol) XRC XML-Based Resource System XRC Xport Robot Controller XRC X-Ray Crystallography XRC Exact Reals in C XRC Extended Remote Copying (IBM) ) method, the layer of single crystal nitride formed on a sapphire substrate produced by the PPD process shows significant improvement in crystal quality over a similar product produced by the MOCVD process (Chart 1) Terminology 1. Nitride-based compound semiconductors A general name for compound semiconductors based on (Alx,Gay,In1-x-y)N. Used mainly for the production of ultraviolet/green LEDs and blue LDs. They are now attracting attention as a new material for electronic devices. 2. GaN-based LEDs Based on different compositions, GaN-based LEDs can provide a wide range of lights from ultraviolet to green. It is possible to produce LEDs with wide-ranging wavelengths by combining ultraviolet/blue LEDs with phosphor A rare earth material used to coat the inside face of a CRT. When struck by an electron beam, the phosphor emits a visible light for a few milliseconds. In color displays, red, green and blue phosphor dots are grouped as a cluster. See screen burn. . (Phosphor is a luminescent lu·mi·nes·cent adj. Capable of, suitable for, or exhibiting luminescence. [Latin l men, l material that converts part
of the absorbed light into emitted luminescent radiation of different
wavelengths.)3. Epitaxial growth A technology to form a semiconductor layer having the same crystalline orientation as the substrate on which it is grown. 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. 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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