GE Global Research Develops World's Best Performing Carbon Nanotube Diode; Nano-Diode is One of the Smallest Devices Ever Made.NISKAYUNA, N.Y. -- GE Global Research, the centralized research organization of the General Electric Company (NYSE NYSE See: New York Stock Exchange :GE), announced the development of the world's best performing diode built from a carbon nanotube See nanotube. , which will enable smaller and faster electronic devices with increased functionality. The nano-diode is one of the smallest functioning devices ever made. The GE Nanotechnology Advanced Technology program reported its discovery in the cover story of the July 5, 2004 edition of "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. ." Diodes are fundamental semiconductor devices that form the basic building blocks of electronic devices, such as transistors, computer chips, sensors, and light emitting diodes (LEDs). Unlike traditional diodes, GE's carbon nanotube device has the ability for multiple functions -- as a diode and two different types of transistors -- which should enable it to both emit and detect light. "Just as silicon transistors replaced old vacuum tube vacuum tube: see electron tube. vacuum tube Electron tube consisting of a sealed glass or metal enclosure from which the air has been withdrawn. It was used in early electronic circuitry to control a flow of electrons. technology and enabled the electronic age, carbon nanotube devices could open a new era of electronics," said Margaret Blohm, GE's advanced technology leader for nanotechnology. "We are excited about this breakthrough and we're eager to start developing new applications for the GE businesses." GE's breakthrough device comes very close to the theoretical limits of performance. Measured through the ideal diode equation, developed by Nobel Laureate Noun 1. Nobel Laureate - winner of a Nobel prize Nobelist laureate - someone honored for great achievements; figuratively someone crowned with a laurel wreath William Shockley, GE's new diode has an "ideality i·de·al·i·ty n. pl. i·de·al·i·ties 1. The state or quality of being ideal. 2. Existence in idea only. Noun 1. factor" very close to one, which is the best possible performance for a diode. One possible application for GE is to use the device to build the next generation of advanced sensors that will have unsurpassed levels of sensitivity. For example, next generation sensors in security applications could detect potential terrorist threats from chemical and biological hazards, even if they are present in extremely small quantities. This would enable enhanced security at airports, office buildings and other public areas. The carbon nanotube diode was developed by Dr. Ji-Ung Lee, a scientist who works in the Nanotechnology Advanced Technology Program at the GE Global Research Center in Niskayuna, N.Y. More research is underway to enhance the carbon nanotube diode and increase the yield in the manufacturing process, but GE nanotechnology researchers believe this breakthrough could enable a range of important new applications in computing, communications, power electronics, and sensors. Technical Details A diode is formed by joining a p-type and an n-type semi-conducting material. Traditionally, these are created by adding impurities or "dopants" to a bulk semiconductor. But unlike traditional semiconductors, there is not a commercially viable method to dope carbon nanotubes. To solve this problem, GE uses an electric field to create the p and n regions. Electric field coupling is accomplished with a split gate electrode fabricated underneath the nanotube A carbon molecule that resembles a cylinder made out of chicken wire one to two nanometers in diameter by any number of millimeters in length. Accidentally discovered by a Japanese researcher at NEC in 1990 while making Buckyballs, they have potential use in many applications. . The two coplanar co·pla·nar adj. Lying or occurring in the same plane. Used of points, lines, or figures. co  pla·nar gates couple to the two halves of a carbon nanotube. Essentially, this acts as a Field Effect Transistor See FET. (electronics) field effect transistor - (FET) A transistor with a region of donor material with two terminals called the "source" and the "drain", and an adjoining region of acceptor material between, called the "gate". where the gate is split into two independently addressable Reachable. When something is addressable, it can be identified and manipulated independently of its surroundings. For example, screen pixels and RAM memory are addressable. Each of the screen's picture elements can be individually turned on and off, and each of the memory's bytes can be gates. By biasing one gate with a negative voltage and the other with a positive voltage, a p-n junction can be formed. Since the doping doping, in electronics: see semiconductor. Altering the electrical conductivity of a semiconductor material, such as silicon, by chemically combining it with foreign elements. is not fixed, the diode can dynamically change polarity from a p-n to an n-p diode and visa versa. In addition, the device also functions as a p-channel transistor (both gates are negatively biased) or an n-channel transistor (both gates are positively biased). Finally, the material properties of carbon nanotubes should enable the device to function as a Light Emitting Diode as well. The full technical paper about this research is available in the July 5, 2004 issue of "Applied Physics Letters" or online at http://apl.aip.org/. About GE Global Research: GE Global Research was the first industrial research lab in the United States and is one of the world's most diversified research centers, providing innovative technology for all of GE's businesses. Global Research has been the cornerstone of GE technology for more than 100 years, developing breakthrough innovations in areas such as medical imaging, energy generation technology, jet engines, advanced materials and lighting. GE Global Research is headquartered in Niskayuna, New York Niskayuna is a town in Schenectady County, New York, USA. The population was 20,295 at the 2000 census. The Town of Niskayuna is located in the southeast part of the county, north and east of the City of Schenectady. and has facilities in Bangalore, India; Shanghai, China; and Munich, Germany. Visit GE Global Research at www.research.ge.com. |
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