21. Atomic nanotechnology, Condensed Matter, Solid Statephysics. physics Internet Resources http://pdg.lbl.gov/~aerzber/aps_nano.html

Nanotechnology, Condensed Matter, Physics Internet Resources Hot News Everyday Physics and Investigations Science Museums Searches and News ... Teachers Fields of Physics Atomic Fusion Nuclear Particle ... Scanning Tunneling Microscope Gallery . Atomic-scale view of surfaces. Nanotechnology . News, web resources, links, from Xerox. Semiconductors Transistor . How it works, interactive activities, history, TV clips. PN Junction. Graphical illustration of the formation of a pn junction and its band diagram. Fermi Level in Semiconductor. Applet to learn the relationship between Fermi level and carrier concentrations in a semiconductor. Semiconductor - Diffusion, Drift, Recombination. This applet visualizes the excess minority carrier processes in a semiconductor sample.

22. Gyre.org : Nanotechnology : Progress Towards Nanotechnology One of the most fundamental rules of physics, the second law of thermodynamics, hasfor the first time been shown not Keywords, Progress Towards nanotechnology. http://www.gyre.org/news/related/Nanotechnology/Progress Towards Nanotechnology

search Animal Machine Interface Artificial Life Asteroid Defense Biological Warfare ... Virtual Reality NANOTECHNOLOGY : PROGRESS TOWARDS NANOTECHNOLOGY News Resources Bibliography Next 10 Articles Random 10 Articles Viewing articles through of in the category: Nanotechnology and the subtopic: Progress Towards Nanotechnology 'Nanowire' breakthrough hailed Staff BBC Sci/Tech April 01, 2003 Comments Microscopic wires which could help form the miniature technology of the future have been constructed using the basic building blocks of living things. Explore Related: Category Nanotechnology Keywords Progress Towards Nanotechnology The next big thing (is practically invisible) Kelly Hearn Christian Science Monitor March 24, 2003 Comments Though still largely exploratory, nanoscience is gradually becoming nanobusiness, and consumers looking for payoffs should expect near-term gains in semiconductors, data storage, life sciences, and optics to name a few. Explore Related: Category Nanotechnology Keywords Progress Towards Nanotechnology In the World of the Very Small, Companies Make Big Plans Barnaby J. Feder New York Times December 16, 2002 Comments More and more businesses are moving into the world of nanotechnology, where particles of common materials are shrunk to such a minuscule size that they behave in unexpected — and often useful — ways. Entrepreneurs and multinationals alike are building on research from the 1980's and 1990's that led to relatively simple ways to fashion silicon, metals, plastics and even workaday substances like clay into particles of no more than a few molecules apiece.

23. Gyre.org : Keywords : Progress Towards Nanotechnology One of the most fundamental rules of physics, the second law of thermodynamics,has for the first Keywords in nanotechnology, Progress Towards nanotechnology. http://www.gyre.org/news/explore/Progress Towards Nanotechnology

search Animal Machine Interface Artificial Life Asteroid Defense Biological Warfare ... Virtual Reality KEYWORDS : PROGRESS TOWARDS NANOTECHNOLOGY News Resources Bibliography Next 10 Articles Random 10 Articles Viewing articles through of in the subtopic: Progress Towards Nanotechnology 'Nanowire' breakthrough hailed Staff BBC Sci/Tech April 01, 2003 Comments Microscopic wires which could help form the miniature technology of the future have been constructed using the basic building blocks of living things. Explore Related: Category Nanotechnology Keywords in Nanotechnology Progress Towards Nanotechnology The next big thing (is practically invisible) Kelly Hearn Christian Science Monitor March 24, 2003 Comments Though still largely exploratory, nanoscience is gradually becoming nanobusiness, and consumers looking for payoffs should expect near-term gains in semiconductors, data storage, life sciences, and optics to name a few. Explore Related: Category Nanotechnology Keywords in Nanotechnology Progress Towards Nanotechnology In the World of the Very Small, Companies Make Big Plans Barnaby J. Feder New York Times December 16, 2002 Comments More and more businesses are moving into the world of nanotechnology, where particles of common materials are shrunk to such a minuscule size that they behave in unexpected — and often useful — ways. Entrepreneurs and multinationals alike are building on research from the 1980's and 1990's that led to relatively simple ways to fashion silicon, metals, plastics and even workaday substances like clay into particles of no more than a few molecules apiece.

24. PhysicsWeb - Nanotechnology Is Good For The Heart Institute of physics, University of Basel. Nanotechweb. Nanomechanic devices sniffout whisky. Restricted links. nanotechnology 14 8690. Author. Edwin Cartlidge. http://physicsweb.org/article/news/7/1/4

Advanced site search news January February March April May June July August September October November December Show summaries quick search Search the news archive. Previous News for January 2003 Next Nanotechnology is good for the heart 10 January 2003 A Swiss team of physicists, biochemists and doctors has constructed an array of sub-millimetre sized cantilevers to monitor blood proteins. The device, built by Youri Arntz of the University of Basel and colleagues at Basel and IBM's Zurich Research Laboratory, can measure proteins whose concentration reflects the state of a person's heart. It promises quicker and easier diagnoses of heart attacks than existing technologies, which rely on the radioactive labelling of proteins (Y Arntz et al. 2003 Nanotechnology 14 86). The array consists of eight cantilevers, all 0.5 millimetres long, 0.1 millimetres wide and 500 nanometres thick, and coated on their upper surfaces with blood protein antibodies. When immersed in a liquid containing blood proteins, the antibodies bind to the proteins and induce a stress in the cantilevers, causing them to bend. The researchers were able to measure this bending by monitoring a laser beam reflected by each cantilever. In their experiments, they coated one of the cantilevers with the antibodies of the creatin kinase protein, and another with the antibodies of the myoglobin protein. They immersed the array in a solution of creatin kinase and then in a solution of myoglobin, and in both cases they observed bending in the relevant cantilever.

25. Lycos Zone File Not Found Grade Level 12+ physics News Graphics Breakthroughs in nanotechnologyfrom the American Institute of physics Grade Level 9-12, http://www.lycoszone.com/dir/Homework/Science/Physics/Nanotechnology/

Search For: Lycos Zone Home Family Zone Teachers Zone 404 ERROR - FILE NOT FOUND The Web page you requested was not found. You can: - Use the search box above to look for your page. - Locate information by subject in our Lycoszone Directory - Visit our reference pages: Almanac Encyclopedia Dictionary Atlas ... Games Comments? Suggestions? Please send us Feedback Lycos Worldwide Lycos Zone Privacy Statement Updated

26. Nanotechnology -- From Eric Weisstein's World Of Physics Mathematics physics. Alphabetical Index. About this site. Experimentalphysics , nanotechnology v. nanotechnology, References. Regis, E http://scienceworld.wolfram.com/physics/Nanotechnology.html

Experimental Physics Nanotechnology Nanotechnology References Regis, E. Nano: The Emerging Science of Technology, Remaking the World-Molecule by Molecule. Little, Brown, and Company, 1996. Weisstein, E. W. "Books about Nanotechnology." http://www.ericweisstein.com/encyclopedias/books/Nanotechnology.html Author: Eric W. Weisstein

27. Chp. 3: Division Of Physics Activities In Nanotechnology Division of physics Activities in nanotechnology. Denise CaldwellDivision of physics (PHY), MPS/NSF As nanostructures continue to http://www.wtec.org/loyola/nano/US.Review/03_09.htm

Division of Physics Activities in Nanotechnology Denise Caldwell Division of Physics (PHY), MPS/NSF Published: January 1998 WTEC Hyper-Librarian

28. Wiley :: Semiconductors For Micro- And Nanotechnology By Jan G. Korvink, Andreas Greiner; John Wiley Technology nanotechnology Books...... chips, now reach nanometer size, semiconductor research moves from microtechnologyto nanotechnology. An understanding of the semiconductor physics involved in http://www.wiley.com/cda/product/0,,3527302573,00.html

Shopping Cart My Account Help Contact Us By Keyword By Title By Author By ISBN By ISSN Wiley General Materials Science Semiconductors for Micro- and Nanotechnology Related Subjects General Physics General Chemistry Fundamentals of Material Science Related Titles By These Authors Sensors, Update 10 (Hardcover) Sensors, Update 11 (Hardcover) Sensors, Update 13 (Hardcover) General Materials Science Sensors Applications, Volume 7 (Hardcover) Shot Peening (Hardcover) Lothar Wagner (Editor) Materials Science and Technology, Volume 3B, Electronic and Magnetic Properties of Metals and Ceramics Part II (Hardcover) Materials Science and Technology, Volume 2B, Characterization of Materials Part II (Hardcover) Eric Lifshin (Editor), Robert W. Cahn (Series Editor), Peter Haasen (Series Editor), E. J. Kramer (Series Editor) Materials Science and Technology, Volume 8, Structure and Properties of Nonferrous Alloys (Hardcover) K. H. Matucha (Editor) General Materials Science Semiconductors for Micro- and Nanotechnology J. G. Korvink, Andreas Greiner

29. London Centre For Nanotechnology - Members London Centre for nanotechnology Condensed Matter and Materials physics Group physicsand Astronomy Department University College London Gower Street London http://www.london-nano.ucl.ac.uk/lcn/members/

London Centre for Nanotechnology Home Home Members Building ... Useful Links Members Members of the London Centre for Nanotechnology are Director Gabriel Aeppli UCL Physics and Astronomy Email Deputy Director Quentin Pankhurst UCL Physics and Astronomy Email Business Development Manager Abid Khan UCL Business Email Executive council Ian Boyd UCL Electrical and Electronic Engineering Email Michael Horton ... Email Principal Investigators David Bowler UCL Physics and Astronomy Email Donal Bradley IC Physics Email Franco Cacialli UCL Physics and Astronomy ... Rachel McKendry UCL Chemistry Medicine Email Ellen Platzman ... Email Clean Room Director Vic Law UCL Electrical and Electronic Engineering Email Advisory Board Sir Derek Roberts Chairman, former Provost of UCL Steven Cundy Marconi John Gallop NPL Email Richard Palmer Birmingham Email Stuart Parkin IBM ... Cavendish Laboratory and Toshiba Research, Cambridge Email Dominic Tildesley Unilever Email David Williams UCL Chemistry ... Email Richard Worswick Laboratory of the Government Chemist Contacts Administrator Ms. Denise Ottley

30. Experiments Of Physics And Nanotechnology Experimental physicist that works in nanotechnology related fields.Surface physics and smart materials. Mindaugas Rackaitis, Ph. http://www.plmsc.psu.edu/~minis/resume.html

31. Rackaitis M. Experimentalist In Physics And Nanotechnology Experimental physicist that works in nanotechnology related fields. Surface physicsand smart materials. Mindaugas Rackaitis, Ph. D. Postdoctoral Associate http://www.plmsc.psu.edu/~minis/main.html

32. NanoLink Research Tools Purdue nanotechnology Initiative (NTI) Rice Quantum Institute (RQI)Solid State Spectroscopy at the Institute of Materials physics of the http://sunsite.nus.edu.sg/MEMEX/nanolink.html

NanoLink - Key Nanotechnology Sites on the Web W elcome! This service is maintained through a collaborative project between Memex Research Pte Ltd and , and hosted at SunSITE Singapore , Computer Centre, National University of Singapore. NanoLink - Key Nanotechnology Sites on the Web "Small is Beautiful" E. F. Schumacher This list covers Web sites doing work or providing information on Nanotechnology and related areas, including: Fullerenes and Bio-Fullerenes, Molecular Engineering, Molecular Manufacturing, Molecular Self-Assembly, Nanobiology, Nanochemistry, Nanocomputers and Nanocomputing, Nanoelectronics, Nanofabrication, Nanomedicine, Nanophotonics, Nanophysics, Quantum Computing, Quantum Engineering, Scanning Tunnelling and Atomic Force Microscopy Web Search Worth Reading Nanoelectromechanical systems face the future , Michael Roukes, PhysicsWorld Features, February 2001. Physics and the Information Revolution , J. Birnbaum and R.S. Williams, Physics Today, January 2000, p. 38. Foresight Debate with Scientific American , Ralph Merkle's response to the April 1996 Scientific American story Trends in nanotechnology: waiting for breakthroughs Nanosystems: Molecular Machinery, Manufacturing, and Computation

33. BU Libraries-Research Guide: Nanotechnology Purdue University Birck nanotechnology Center Purdue University nanotechnologyInitiative Purdue University Nanoscale physics. Rice http://www.bu.edu/library/research-guides/nanotech.html

Library Home Ask-a-Librarian Library Catalog BU Home Research Guide: Nanotechnology Indexes Electronic Journals Research and Industry Nanotechnology Links ... Nano - A prefix meaning ten to the minus ninth power, or one billionth. What is Nanotechnology? Molecular Engineering, Molecular Manufacturing, Molecular Self-Assembly, Nanobiology, Nanochemistry, Nanocomputers and Nanocomputing, Nanoelectronics, Nanofabrication, Nanomedicine, Nanophotonics, Nanophysics, Quantum Computing, Quantum Engineering... Indexes BIOSIS (Biological Abstracts) 1989+ BU Description Compendex (Engineering Index/Engineering Village) 1970+ BU Description General Science Full Text (WilsonWeb) 1984+ BU Description Ingenta Description INSPEC BU Description Medline BU Description PubMed Description PubSCIENCE ... SciFinder Scholar (Chemical Abstracts) BU Description U.S. Patents BU Description U.S. Patent and Trademark Office Patent Search Description ... Web of Science (Science Citation Index) 1988+ BU Description WorldCat BU Description UP Electronic Journals BU Boston University Libraries- Complete List of E-Journals UP arXiv.org e-Print archive

34. Applied Physics - Technological Challenges For CMS Applied physics Group nanotechnology — Manipulating Atoms. Todaysmanufacturing methods are very crude at the molecular level. http://cern.ch/ref/CERN/HR/AT2002/E6

Applied Physics Group Technological challenges for CMS The course will address to non-specialists the main technological challenges of CMS. It will discuss aspect such as: The design of a large high field superconducting coil, the different aspects of the fabrication of its main components (conductor, mandrels...), their assembly as well as the coil winding. The operation of silicon trackers of unprecedented size and complexity in the demanding LHC environment. The emphasis placed on achieving high-resolution crystal electromagnetic calorimetry. The challenges of fast Radhard electronics. Last updated on Monday, 24-Mar-2003 10:50:11 CET

35. Nanoelectronics Bibliography pp. 1320. F. Buot, Mesoscopic physics and Nanoelectronics Nanoscienceand nanotechnology, physics Reports, pp.73-174, 1993. F http://www.mitre.org/research/nanotech/nanoelect_bib.html

Nanoelectronics Bibliography A list of introductory references on nanoelectronics appears below. The list also includes a few references on related topics, such as general nanotechnology. The references are listed alphabetically by author. A much more complete bibliography is found in the MITRE report by Montemerlo et al. , which is cited below. Suggestions for additional references are welcome. Please e-mail them to nanotech@mitre.org R. T. Bate, "Nanoelectronics," Nanotechnology , Vol. 1, pp. 1-7, 1990. Bate, R., Frazier, G., Frensley, W., Reed., M., "An Overview of Nanoelectronics," Texas Instruments Technical Journal , July-August 1989, pp. 13-20. F. Buot, "Mesoscopic Physics and Nanoelectronics: Nanoscience and Nanotechnology," Physics Reports , pp.73-174, 1993. F. Capasso and S. Datta, "Quantum Electron Devices," Physics Today , pp.74-82, February 1990. Claeson, T., and Likharev, K., " Single Electronics," Scientific American, June 1992, pp. 80-85. Crandall, B.C. and Lewis, J.

36. Cross Sections: The UT Physics Newsletter/Research Highlight On Nanotechnology of the physics department. We have more student requests in the Science Allianceprogram than he can accommodate. . The interest nanotechnology inspires, as http://www.phys.utk.edu/xsections/xsections_F2001_research.htm

Dr. Panos Datskos is both architect and builder of a tiny universe; one that can generate switches, sensors, and nanoelectronics with the potential to improve everything from the way we communicate to the safety of our cars. To do this, he sketches out the plans, gathers the materials, and builds miniature systems called MEMS (micro-electro-mechanical systems) and NEMS (nano-electro-mechanical systems), testing them to see how they respond to different variables. "We're looking at some basic processes at the microscale and nanoscale," said Dr. Datskos, a research associate professor in the physics department and a member of the Engineering Science and Technology Division at Oak Ridge National Laboratory. TINY DEVICES: BIG SENSITIVITY The centerpiece for much of his research is a tiny device called a cantilever, which he said is "as simple as a diving board." These miniscule marvels are usually made out of silicon or silicon nitrate. They range in length from 50 to 200 micrometers and in width from one-tenth to two micrometers. (To put this in perspective, consider that a penny is roughly 20,000 micrometers wide.) But their size belies the power of these tiny objects, which are sensitive enough to pick up the body heat of a person doing no more than sitting in an office. Dr. Datskos explained that when a cantilever interacts with photons, chemicals, or magnetic fields, surface stresses cause it to bend. "As it bends," he said, "that translates into how much energy was used in the transaction."

37. B.E.N. @ PENN - Research / Nanotechnology nanotechnology research is conducted in the Department of physics in conjunctionwith the Laboratory for Research on the Structure of Matter (LRSM) where http://www.upenn.edu/ben-penn/nanotech.html

Nanotechnology The 'shrinking' of traditional engineering is driven largely by chip technology and by the microfabrication of nanostructures in Physics. For soft materials, access to subcellular organelles is facilitated by developments in optics and protein chemistry. Nanotechnology research is conducted in the Department of Physics in conjunction with the Laboratory for Research on the Structure of Matter (LRSM) where investigations of nanotubes and 'buckyballs' are in progress. The Pennsylvania Muscle Institute (PMI) and Department of Physiology have a program in Molecular Motors (See under "Cell Motility" above) of the cytoskeleton using purified cell proteins. Optical images of living cell components are generated by fluorescent gene constructs (GFP) transfected into cells and rendered 3-dimensional for dynamics studies at the Optical Imaging Laboratory of the Institute for Medicine and Engineering (IME) Manipulations of Single Molecules Carbon Tubules and Fullerides Carbon nanotubules and fullerenes Nanostructure physics and quantum transport Manipulations of Single Molecules (PMI) A very recent area of research concentration at the Pennsylvania Muscle Institute is nanotechnology. The Institute’s involvement has been in development of techniques to manipulate and study single functioning protein molecules. In many enzyme and polynucleotide systems, important elementary events at the molecular level are obscured within the average behavior of a molecular population. Studying enzymes one at a time has only recently become technically feasible but new information, not otherwise available, can be gained from such an approach. Work in this area will allow, for the first time, measurements of time-resolved structural information, forces, elasticity and molecular displacements on single biomolecules.

38. Nanotechnology Industries + Academic of Advanced Materials Current research projects (including nanotechnology). USBBuckyball homepage, physics Department at Stony Brook University of Sussex http://www.nanoindustries.com/links/academic.html

"Solutions for the future..." Northwestern University Institute for Nanotechnology Nadrian Seeman's Homepage at NYU - Pioneer of DNA nanotechnology The Smalley Group at Rice University. Nanoscale Physics at Purdue University Georgia Institute of Technology Office of Development disciplines of nanotube research, fatigue and fracture, and ceramic and materials processing research. The Cornell Nanofabrication Facility (CNF) Provides nanofabrication services to over 600 research projects on the Cornell University campus. The Center for Nanoscale Science and Technology at Rice University is devoted to nurturing science and technology at the nanometer scale. Rice University Professional Master's Program in Nanoscale physics. The Center for Structural Biology of the University of Florid a within the College of Medicine, with a mission to study biological structure in order to gain greater understanding of the relationship between structure and function. Hungarian Academy of Sciences Research, Institute for Materials Science

39. Atomic Force Microscopy, Scanning Probe Microscopes And of nanotechnology. Technische Universitaet Wien, STM Gallery, The Institut fuerAllgemeine Physik,. University of Bristol, Department of physics, Microstructural http://www.mwrn.com/guide/scanning_probe/microscope.htm

40. CNN.com - Nobel Physics Trio Made 'atoms Sing' - October 9, 2001 Ketterle, 43, is a professor of physics at the Massachusetts Institute of applicationsin such fields as precision measurement and nanotechnology, the academy http://www.cnn.com/2001/WORLD/europe/10/09/nobel.physics/

MAIN PAGE WORLD U.S. WEATHER ... ABOUT US/HELP CNN TV what's on show transcripts CNN Headline News CNN International EDITIONS CNN.com Asia CNN.com Europe CNNenEspanol.com CNNArabic.com ... set your edition Languages Spanish Portuguese German Italian Korean Arabic Japanese Time, Inc. Time.com People Fortune EW InStyle Business 2.0 Nobel physics trio made 'atoms sing' The U.S. has issued a special stamp to honour the 100-year anniversary STOCKHOLM, Sweden Two Americans and a German have won the Nobel physics prize for discovering a new state of matter that could lead to super-small machines. Americans Eric A. Cornell and Carl E. Wieman and German-born Wolfgang Ketterle won the prize for freezing matter into a new state that may help make microscopic computers and revolutionise aircraft guidance. The trio of scientists will split about $950,000 for their efforts. "This year's Nobel laureates have succeeded they have caused atoms to 'sing in unison' thus discovering a new state of matter," the Royal Swedish Academy of Sciences said in a statement. Cornell, 39, is a senior scientist at the National Institute of Standards and Technology (NIST) in Boulder, Colorado.

A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z

Page 2     21-40 of 89    Back | 1  | 2  | 3  | 4  | 5  | Next 20