Columbia University, IBM and the University of New Orleans Announce First 3-D Assembly of Magnetic and Semiconducting Nanoparticles.Business Editors YORKTOWN HEIGHTS, N.Y.--(BUSINESS WIRE)--June 25, 2003 Scientists from Columbia University Columbia University, mainly in New York City; founded 1754 as King's College by grant of King George II; first college in New York City, fifth oldest in the United States; one of the eight Ivy League institutions. , 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) and the University of New Orleans History UNO was founded in 1958 as the New Orleans branch of Louisiana State University, originally as "Louisiana State University in New Orleans" or "LSUNO", but became more independent and changed the name to "University of New Orleans" in 1974. today announced a new, three-dimensional designer material assembled from two different types of particles only billionths of a meter across. In the June 26 issue of the scientific journal Nature, the team describes the precision chemistry methods developed to tune the particles' sizes in increments of less than one nanometer and to tailor the experimental conditions so the particles would assemble themselves into repeating 3-D patterns. Designing new materials with otherwise unattainable properties, sometimes referred to as "metamaterials," is one of the promises of nanotechnology. Two-dimensional patterns had previously been created from gold nanoparticles of different sizes and mixtures of gold and silver. Extending this concept to three dimensions with more diverse types of materials demonstrates the ability to bring more materials together than previously realized. "What excites us the most is that this is a modular assembly method that will let us bring almost any materials together," said Christopher Murray, manager of nanoscale materials and devices at 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. . "We've demonstrated the ability to bring together complementary materials with an eye to creating materials with interesting custom properties." Murray worked with Stephen O'Brien Stephen Rothwell O'Brien (born 1 April 1957) is a Conservative Party politician in the United Kingdom. He is Member of Parliament (MP) for Eddisbury, and was first elected in a by-election, after Alastair Goodlad resigned. , assistant professor of applied physics and applied mathematics at Columbia University; Franz Redl, a postdoctoral researcher A postdoctoral fellow (colloquially, a "post-doc") is a temporary research position held by a person who has completed his or her doctoral studies. Its roots go back to the medieval journeyman. affiliated with both Columbia and IBM; and Kyung Sang Cho, a post-doctoral researcher affiliated with IBM and supported by the Advanced Materials Advanced Materials is a leading peer-reviewed materials science journal published every two weeks. Advanced Materials includes Communications, Reviews, and Feature Articles from the cutting edge of materials science, including topics in chemistry, physics, Research Institute of the University of New Orleans. The work was supported in part by the National Science Foundation, the independent agency that supports basic research in all fields of science Fields of science are widely-recognized categories of specialized expertise within science, and typically embody their own terminology and nomenclature. Natural sciences
(Defense Advanced Research Projects Agency) The name given to the U.S. Advanced Research Projects Agency during the 1980s. It was later renamed back to ARPA. ) through programs on metamaterials and advanced thermoelectric ther·mo·e·lec·tric also ther·mo·e·lec·tri·cal adj. Characteristic of, resulting from, or using electrical phenomena occurring in conjunction with a flow of heat. materials. The scientists chose the materials for the experiments specifically because of their dissimilar, yet complementary properties. Lead selenide Sel´e`nide n. 1. (Chem.) A binary compound of selenium, or a compound regarded as binary; as, ethyl selenide s>. is a semiconductor that has applications in infrared detectors and thermal imaging and can be tuned to be more sensitive to specific infrared wavelengths. The other material, magnetic iron oxide The material used to coat the surfaces of magnetic tapes and lower-capacity disks. , is best known for its use in the coatings for certain magnetic recording media. The combination of these nanoparticles may have novel magneto-optical properties as well as properties key to the realization of quantum computing. For example, it might be possible to modulate the material's optical properties by applying an external magnetic field. "This was a demonstration of the ability to create such materials," O'Brien said. "Given the unique combination of these nanoscale materials, we're in uncharted territory with respect to the properties, which we will be working on in the future." The first step was to create the nanoparticles. The particle sizes were calculated from the mathematical ideal of the structures they wanted to create. In addition to fine-tuning the sizes, the particles had to be very uniform, all within 5 percent of the target size. They settled on iron oxide particles 11 nanometers in diameter, which were created by Redl, and lead selenide particles 6 nanometers in diameter, created by Cho. There are approximately 60,000 atoms in one of the iron oxide nanoparticles and approximately 3,000 atoms in the lead selenide particles. Next, Redl assembled the nanoparticles--or more to the point, had the particles assemble themselves--into three different repeating 3-D patterns by tailoring the experimental conditions. Forming these so-called "crystal structures," as opposed to random mixtures of nanoparticles, is essential for the composite material to exhibit consistent, predictable behaviors. Various other materials are known to assemble spontaneously into these structures of close-packed particles, but none has been made of two components in three dimensions and at the length scales reported in the Nature paper. "The precise and energy-efficient self-assembly of matter into material structures with properties that cannot be achieved otherwise is an important goal for nanotechnology," said Mihail Roco, NSF NSF - National Science Foundation senior advisor for nanotechnology and chair of the National Science and Technology Council's Subcommittee on Nanoscale Science and Engineering. "This is just one way that nanotechnology will help foster 'the next industrial revolution.'" For related images and animations from today's announcement, please visit: http://domino.research.ibm.com/Comm/bios.nsf/pages/selfassembly.html About the NSF Center for Nanostructured Materials, Columbia University. The Columbia University Materials Research Science and Engineering Center (MRSEC MRSEC Materials Research Science and Engineering Center (John Hopkins University) ) is an interdisciplinary team interdisciplinary team, n a group that consists of specialists from several fields combining skills and resources to present guidance and information. of university, industrial, and national laboratory scientists and engineers working together to develop and examine new types of nanocrystals and ways of assembling them into thin films. http://www.cise.columbia.edu/mrsec/ About IBM Research IBM Research is the information technology industry's largest information technology research organization, with more than 3,000 scientists and engineers at eight labs in six countries. For more information about IBM's nanotechnology research projects: http://www.research.ibm.com/pics/nanotech/ About The National Science Foundation The National Science Foundation is an independent federal agency that supports fundamental research and education across all fields of science and engineering, with an annual budget of nearly $5.3 billion. National Science Foundation funds reach all 50 states through grants to nearly 2,000 universities and institutions. Each year, NSF receives about 30,000 competitive requests for funding, and makes about 10,000 new funding awards. The National Science Foundation also awards over $200 million in professional and service contracts yearly. NSF Home Page: http://www.nsf.gov/ |
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