Kopin Announces Novel Epitaxial Ohmic Contact Technology For GaN Light-Emitting Diodes.Business Editors/High-Tech Writers TAUNTON, Mass.--(BUSINESS WIRE)--Nov. 18, 2002 GaN innovation lowers contact resistance; yields LEDs well suited for harsh environments of portable and commercial lighting applications Kopin Corp. (NASDAQ NASDAQ in full National Association of Securities Dealers Automated Quotations U.S. market for over-the-counter securities. Established in 1971 by the National Association of Securities Dealers (NASD), NASDAQ is an automated quotation system that reports on : KOPN) announced a new ohmic contact technology on gallium nitride (GaN) that has very low contact resistance and a very high degree of stability. Details of this new contact, which is formed epitaxially on GaN, are described in the Nov. 18 edition of the prestigious Applied Physics Letters Applied Physics Letters is a weekly peer-reviewed scientific journal published by the American Institute of Physics devoted to the publication of new experimental and theoretical papers about applications of physics to science, engineering, and modern technology. . This is the first time an epitaxial (single-crystalline) contact has been formed on GaN, and should be superior to polycrystalline Adj. 1. polycrystalline - composed of aggregates of crystals; "polycrystalline metals" crystalline - consisting of or containing or of the nature of crystals; "granite is crystalline" contacts that are typically used in the industry. The new patent-pending ohmic contacts, together with the previously announced NanoPockets(TM) technology and other improvements, have enabled Kopin to produce blue LED chips (CyberLites(TM)) as bright as those commercially available and yet can be driven by much lower voltage. CyberLites require less than 2.9 volts of electricity (for 20 milliamperes current) - significantly lower than 3.3 volts for commercially available LEDs - and yet have 100 millicandela brightness. CyberLites with resistance to electrostatic discharge (ESD (1) (Electronic Software Distribution) Distributing new software and upgrades via the network rather than individual installations on each machine. See ESL. ) over several thousand volts are also obtained. "There's a lot of innovative science behind our bright little light," said Dr. John C. C. Fan, president and chief executive officer of Kopin. "The initial reaction from our potential customers is excellent, and we are making very good progress towards the goal of mass production. We didn't start the coming LED lighting revolution, but we intend to accelerate it significantly." Kopin's new ohmic contacts are formed by depositing layers consisting of gold, nickel and gold on the p-type GaN surface and annealing annealing (ənēl`ĭng), process in which glass, metals, and other materials are treated to render them less brittle and more workable. in air for 30 minutes at 470 degrees C. The gold layer in contact with p-GaN grows epitaxially via domain matching epitaxy epitaxy Process of growing a crystal of a particular orientation on top of another crystal. If both crystals are of the same material, the process is known as homoepitaxy; if the materials are different, it is known as heteroepitaxy. , which acts as a template for nickel oxide growth via lattice matching epitaxy. Specific contact resistance in the range of 10 microohm cm squared has been measured. Lower values for contact resistance are expected with further optimization of layer thickness and annealing conditions. The contact is very stable to endure high-temperature environments (350 degrees C for 30 minutes) and extended harsh operation conditions. The CyberLite contacts utilize the domain epitaxy technique invented by Dr. Jagdish Narayan and licensed by Kopin Corporation. "The domain epitaxy is a new paradigm New Paradigm In the investing world, a totally new way of doing things that has a huge effect on business. Notes: The word "paradigm" is defined as a pattern or model, and it has been used in science to refer to a theoretical framework. for thin film growth where films with large lattice mismatch can be grown via matching of integral multiples of lattice planes across the film-substrate interface," said Dr. Narayan, Distinguished University Professor and Director of NSF NSF - National Science Foundation Center for Advanced Materials and Smart Structures at North Carolina State University History
According to Professor Paul Holloway, Distinguished Professor of Materials Science and Engineering Materials science and engineering A multidisciplinary field concerned with the generation and application of knowledge relating to the composition, structure, and processing of materials to their properties and uses. , University of Florida University of Florida is the third-largest university in the United States, with 50,912 students (as of Fall 2006) and has the eighth-largest budget (nearly $1.9 billion per year). UF is home to 16 colleges and more than 150 research centers and institutes. , "Domain epitaxy to fabricate epitaxial contact layers with large lattice misfit mis·fit n. 1. Something of the wrong size or shape for its purpose. 2. One who is unable to adjust to one's environment or circumstances or is considered to be disturbingly different from others. represents a very significant milestone in thin film growth, not only for ohmic contacts but for thin film heterostructures, in general. In addition, a contact resistance of 10 microohm cm squared for p-type GaN is excellent and results in the better performance of the LED." About Kopin Founded in 1984, Kopin (NASDAQ: KOPN) is pioneering the use of the Wafer Engineering Process(TM) in consumer, communications and military technology. The company supplies the world's largest electronics manufacturers and government agencies with breakthrough semiconductor products - from dime-sized microdisplays to ultra-efficient transistors to solid-state LED lighting - that enhance the delivery and presentation of voice, video and data. Kopin technology is currently used in one-quarter of the world's cell phones and nearly one-third of the world's camcorders and is the microdisplay standard for the U.S. military. For more information, please visit Kopin's Web site at www.kopin.com. CyberDisplays, CyberLites, Wafer Engineering and NanoPockets are trademarks of Kopin Corporation. Statements in this news release about Kopin Corporation's new ohmic contact technology are made under "safe harbor Safe Harbor 1. A legal provision to reduce or eliminate liability as long as good faith is demonstrated. 2. A form of shark repellent implemented by a target company acquiring a business that is so poorly regulated that the target itself is less attractive. " provisions of the Private Securities Litigation Reform Act The Private Securities Litigation Reform Act of 1995 (PSLRA) implemented several significant substantive changes affecting certain cases brought under the federal securities laws, including changes related to pleading, discovery, liability, class representation and awards fees and of 1995. These statements involve a number of risks and uncertainties that could materially affect future results. Among these risk factors are general economic and business conditions and growth in the blue LED market, the impact of competitive products and pricing, the Company's ability to successfully expand its production facilities, cost and yields of LEDs, acceptance of the Company's products, establishment of strategic relationships, and other risk factors and cautionary statements listed from time to time in the Company's periodic reports and registration statements filed with the Securities and Exchange Commission including, but not limited to, the Company's Annual Report on Form 10-K for the year ended December 31, 2001, and the Quarterly Report on Form 10-Q for the period ended September 28, 2002. |
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