IBM Scientists Create World's Smallest Solid-state Light Emitter; Pioneering New Applications for Carbon Nanotubes.Business Editors YORKTOWN HEIGHTS, N.Y.--(BUSINESS WIRE)--May 1, 2003 IBM (International Business Machines Corporation, Armonk, NY, www.ibm.com) The world's largest computer company. IBM's product lines include the S/390 mainframes (zSeries), AS/400 midrange business systems (iSeries), RS/6000 workstations and servers (pSeries), Intel-based servers (xSeries) today announced it created the world's smallest solid-state light emitter. This research breakthrough - the first, electrically-controlled, single-molecule light emitter - demonstrates the rapidly improving understanding of molecular devices Molecular Devices Corporation is a leading supplier of high-performance bioanalytical measurement systems that accelerate and improve drug discovery and other life sciences research. . The results also suggest that the unique attributes of carbon nanotubes may be applicable to optoelectronics, which is the basis for the high-speed communications industry communications industry, broadly defined, the business of conveying information. Although communication by means of symbols and gestures dates to the beginning of human history, the term generally refers to mass communications. . IBM's previous work on the electrical properties of carbon nanotubes has helped establish carbon nanotubes as a top candidate to replace silicon when current chip features can't be made any smaller. Carbon nanotubes are tube-shaped molecules that are 50,000 times thinner than an average human hair. IBM scientists expect today's achievement to spark additional research and interest in the use of carbon nanotubes in nanoscale electronic and photonic (light-based) devices. "By further understanding the electrical properties of carbon nanotubes through their light emission, IBM is accelerating the development path for their electronic applications, as well as possible optical applications," said Dr. Phaedon Avouris, manager of nanoscale science, IBM Research IBM Research, a division of IBM, is a research and advanced development organization and currently consists of eight locations throughout the world and hundreds of projects. . "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. light emitters have the potential to be built in arrays or integrated with carbon nanotube or silicon electronic components, opening new possibilities in electronics and optoelectronics." IBM's research team detected light with a wavelength of 1.5 micrometers, which is particularly valuable because it is the wavelength widely used in optical communications Optical communications The transmission of speech, data, video, and other information by means of the visible and the infrared portion of the electromagnetic spectrum. . Nanotubes with different diameters could generate light with different wavelengths used in other applications. How IBM created the world's smallest, solid-state light emitter IBM's light emitter is a single nanotube, 1.4 nanometers in diameter, configured into a three-terminal transistor. As in a conventional semiconductor transistor, applying a low voltage Low voltage is an electrical engineering term that broadly identifies safety considerations of an electricity supply system based on the voltage used. While different definitions exist for the exact voltage range covered by "low voltage", the most commonly used ones include "mains to the transistor's gate switches current passing between opposite ends of the nanotube (the device's source and drain). Building on their previous research, IBM scientists engineered the device to be "ambipolar am·bi·po·lar adj. 1. Applying equally to both positive and negative ions. 2. Operating in two directions simultaneously. ", so they could simultaneously inject negative charges (electrons) from a source electrode and positive charges (holes) from a drain electrode into a single carbon nanotube. When the electrons and holes meet in the nanotube, they neutralize neutralize to render neutral. each other and generate light. Because it is a transistor, IBM's light emitter can be switched on and off depending on the voltage applied to the gate of the device. Electrical control of the light emission of individual nanotubes allows detailed investigations of the optical physics of these unique one-dimensional materials. IBM researchers compared the detail characteristics of the emitted light with theoretical predictions to prove that the light was created by the electron-hole recombination recombination, process of "shuffling" of genes by which new combinations can be generated. In recombination through sexual reproduction, the offspring's complete set of genes differs from that of either parent, being rather a combination of genes from both parents. mechanism. While optical emission from individual molecules has been measured before, that light emission was induced by laser irradiation of samples of molecules. In the case of carbon nanotubes, light emission from a collection of large numbers of nanotubes suspended in a liquid irradiated with a laser has been reported previously. The report on this work "Induced Optical Emission from a Carbon Nanotube FET FET: see transistor. (Field Effect Transistor) One of two major categories of transistor; the other is bipolar. FETs use a gate element that, when charged, creates an electromagnetic field that changes the conductivity of a silicon " by J.A. Misewich, R. Martel, Ph. Avouris, J.C. Tsang, S. Heinze, and J. Tersoff of IBM's T.J. Watson Research Center in Yorktown Heights, N.Y. is published in the May 2 issue of Science. For a copy of the full manuscript, please email scipak@aaas.org or call (202) 326-6440 and request paper number 15 in the May 2 issue. IBM Research has been a nanotechnology pioneer for more than 20 years. Today's achievement builds on a series of major research breakthroughs by IBM scientists using carbon nanotubes (CNTs) to make tiny electronic devices. Last May, IBM created the highest performing nanotubes transistors to date and showed that CNTs can outperform the leading contemporary silicon transistor prototypes. In August 2001, IBM demonstrated the world's first logic-performing computer circuit based on a single carbon nanotube. In April 2001, IBM became the first to develop a groundbreaking technique to produce arrays of CNT (Carbon NanoTube) See nanotube. transistors, bypassing the need to meticulously separate metallic and semiconducting nanotubes. Additional information For related images and animations: http://domino.watson.ibm.com/comm/bios.nsf/pages/cntle.html For more information about IBM's nanotechnology research projects: http://www.research.ibm.com/pics/nanotech/ |
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