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InternetNews
February 2, 2005
Michael Singer |
HP's 'Crossbar Latch' to Replace Transistors? The company's Quantum Science Research group comes up with new signal technology that could power computers.   |
InternetNews
January 16, 2007
David Needle |
HP Claims Chip Advance Researchers say nanotechnology has let them pack many more transistors into chips. |
IndustryWeek
December 1, 2002
Patricia Panchak |
Technologies Of The Year -- Molecular Electronics Hewlett-Packard breakthrough could extend limits of silicon chips. |
PC Magazine
April 20, 2005 |
Bits & Bites v24n08 Patents in Play... Scaling Down... Instant Resumes... |
Technology Research News
October 22, 2003
Eric Smalley |
Nanowires make flexible circuits Nanowires might one day be used to make microscopic machines. But before then they could help liberate computer circuits from the rigid, expensive confines of silicon chips. A process that makes thin films from semiconductor nanowires improves the prospects for plastic electronics and electronic paper. |
Chemistry World
November 27, 2006
Simon Hadlington |
Getting the Dope on a Single Atom of Dopant Scientists have successfully probed the electronic and quantum mechanical properties of a single atom of dopant in a silicon transistor. The research could provide important information necessary for the development of quantum computers. |
IndustryWeek
May 1, 2003
John Teresko |
Electronics: A Voyage Of Discovery Nano-based breakthroughs will shrink data-storage costs, redefine equipment maintenance and change the fundamental challenges of new-product development. |
InternetNews
June 10, 2004
Michael Singer |
Trade Group Calls for More Nano IBM and the Semiconductor Industry Association say the government's plan is woefully under funded. |
IEEE Spectrum
March 2011
Saswato R. Das |
A Crowd of Quantum Entanglements Phosphorus-in-silicon system could lead to quantum computers |
Wired
July 2000
Rick Overton |
Molecular Electronics Will Change Everything The Next Big Thing is very, very small. Picture trillions of transistors, processors so fast their speed is measured in terahertz, infinite capacity, zero cost. It's the dawn of a new technological revolution - and the death of silicon. Can you say Thiophene Ethynylene Valley? |
Technology Research News
September 8, 2004
Eric Smalley |
Chip Architecture Uses Nanowires Nanoelectronics could eventually replace today's silicon chipmaking techniques when today's techniques run their course in a decade or two. |
IEEE Spectrum
April 2005
Linda Geppert |
Power to the Molecules A "crossbar latch" supplies the missing piece for a nanosize alternative to the transistor. Now, researchers at Hewlett-Packard plan to knit them into a huge circuit, hoping to put the technology on the market in about 10 years. |
Technology Research News
January 1, 2003
Eric Smalley |
Electron pairs power quantum plan Researchers from HP Laboratories and Qinetiq plc in England have mapped out a way to manipulate a pair of very cold electrons that could eventually lead to practical quantum computers made from quantum dots, or tiny specks of the type of semiconductor material used in electronics. |
IEEE Spectrum
September 2008
Joshua J. Romero |
Physicist Named MacArthur Fellow for Work on Quantum Computing Alexei Kitaev's theoretical studies may lead the way to quantum computers that catch their own errors |
Technology Research News
November 3, 2004
Eric Smalley |
Single Field Shapes Quantum Bits Researchers have recently realized that it may be possible to control the electrons in a quantum computer using a single magnetic field rather than having to produce extremely small, precisely focused magnetic fields for each electron. |
Wired
October 2001
Wil McCarthy |
Ultimate Alchemy Research into artificial atoms could lead to one startling endpoint: programmable matter that changes its makeup at the flip of a switch... |
InternetNews
August 17, 2009 |
IBM Looks to DNA for Chip-Building Tech Joint research with Caltech yields some astonishing results in the realm of nanoscale semiconductor components. |
IEEE Spectrum
December 2008
R. Stanley Williams |
How We Found the Missing Memristor The memristor -- the functional equivalent of a synapse -- could revolutionize circuit design |
Industrial Physicist
Konstantin Likharev |
Hybrid Semiconductor-Molecular Nanoelectronics Many physicists and engineers believe that the impending crisis due to limitations in CMOS technology may be resolved only by a radical paradigm shift from purely CMOS technology to hybrid semiconductor-molecular circuits. |
Technology Research News
January 26, 2005 |
The How It Works Files Nanotechnology: The laws of physics behave differently at very small scales. At the nanoscale, electrons travel more quickly through wires, transistors can mete out electrons one at a time, objects stick to each other, and light can bend matter. |
Technology Research News
January 29, 2003
Eric Smalley |
Quantum computers go digital One of the challenges of building a quantum computer is reducing errors. Researchers from the University of Wisconsin at Madison have eased the problem with a method that reduces error rates by two orders of magnitude. |
The Motley Fool
March 5, 2010
Anders Bylund |
IBM: Reinventing the Wheel at the Speed of Light Big Blue keeps finding ways to keep microprocessors improving beyond every conceivable limit. |
Wired
September 2001
Mark K. Anderson |
Liquid Logic Say good-bye to the either-or binary digit. Quantum computing is riding a new wave of supercool subatomic bits that can be both 1 and 0 at once... |
The Motley Fool
July 7, 2004
W.D. Crotty |
GE Flexes Its Nanotech Muscle Breakthrough signals enhanced electronics, and bodes well for dividends. |
The Motley Fool
May 2, 2007
Jack Uldrich |
HP Makes a Small Impression The licensing of another company's nanotech research could hold some good financial rewards for investors. |
Industrial Physicist
Avouris & Appenzeller |
Electronics and Optoelectronics with Carbon Nanotubes Evaluating the potential of carbon nanotubes as the basis of a future nanoelectronics technology. |
IEEE Spectrum
May 2013
Alexander Hellemans |
Nanowire Transistors Could Keep Moore's Law Alive Researchers are perfecting ways to produce gate-all-around devices |
Technology Research News
August 25, 2004 |
Hybrid Nanowire Makes Transistor One challenge in making minuscule electronic devices from nanoscale components is wiring the components together. Researchers have found a way to transform sections of semiconducting silicon nanowires into metallic, or conducting, nickel silicide. |
IEEE Spectrum
September 2007
Lieven Vandersypen |
Dot-to-Dot Design Researchers are connecting tiny puddles of electrons in a chip and making them compute -- the quantum way. |
Technology Research News
June 30, 2004 |
Method tests molecular devices Components made from molecules are likely to be smaller than those that can be made using today's chip fabrication methods, and they can potentially self-assemble, which would make for inexpensive manufacturing processes. |
IEEE Spectrum
August 2007
Stick et al. |
The Trap Technique In this first part of a two-part series, the authors discuss how today's computers are running out of room for classical physics to work and how working with the quantum nature of things instead of against it will open up vast new frontiers for computing. |
BusinessWeek
April 18, 2005
Adam Aston |
The Coming Chip Revolution Facing the limits of silicon, scientists are turning to carbon nanotubes. But even with a reliable supply of tubes, scaling up production to supply a vast global industry will take years. |
IEEE Spectrum
May 2011
Wager & Hoffman |
Thin, Fast, and Flexible Semiconductors Amorphous oxide semiconductors promise to make flat-panel displays faster and sharper than today's silicon standby. |
Technology Research News
March 24, 2004 |
Nanowires span silicon contacts One challenge in making electronics at the size-scale of molecules is finding ways to position and attach nanowires to the tiny components. Researchers from Hewlett-Packard Laboratories have succeeded in growning nanowires between electrodes. |
Industrial Physicist
Feb/Mar 2003
Jennifer Oullette |
Quantum dots for sale Artificial atoms illluminate biotechnology and other fields |
Fast Company
Victor Kotsev |
HP's Post-Electronic Solution To Tomorrow's Huge Data The HP Machine solves the problem by abandoning the electron -- at least for some key purposes. Memory systems are moving to the ion. |
Technology Research News
October 22, 2003 |
Nanowires boost plastic circuits The move is on to develop flexible, cheap, plastic electronics, but so far organic circuits have fallen far short of silicon chip performance. Researchers from the Hahn-Meitner Institute in Germany have moved the field forward with a new way to make flexible transistors. |
Technology Research News
March 12, 2003
Kimberly Patch |
Cheap solar power on deck Researchers from the University of California at Santa Barbara have come up with a new type of solar cell that may be much less expensive to manufacture than today's solar cells and can be improved to be nearly as efficient. |
IEEE Spectrum
September 2008
Peide D. Ye |
Beyond Silicon's Elemental Logic In the quest for speed, key parts of micro-processors may soon be made of gallium arsenide or other III-V semiconductors |
The Motley Fool
May 2, 2005
Jack Uldrich |
Intel's "Intel Around Us" Strategy Intel's push into the realm of all things nano stretches beyond "Intel Inside" and broadens the company's long-term potential. Investors, take note. |
InternetNews
June 8, 2004
Michael Singer |
New Pact on Sub-Micron Chip Standards Engineering bodies, IEEE and SEMI sign an agreement to support each other's efforts in the field of nanotechnology and MEMS. |
BusinessWeek
February 14, 2005
Baker & Aston |
The Business Of Nanotech There's still plenty of hype, but nanotechnology is finally moving from the lab to the marketplace. Get ready for cars, chips, and golf balls made with new materials engineered down to the level of individual atoms. |
Technology Research News
March 26, 2003 |
Tilted trenches turn out tiny wires Researchers from UCLA, UCSB, and Cal Tech have found a way to make arrays of closely-spaced and crossed metal and semiconductor nanowires. |
IndustryWeek
December 1, 2004
Tim Stevens |
Technologies Of The Year -- IBM Corp.'s Nanotechnology For Semiconductor Processing Polymer molecules that self-assemble will enable smaller, more powerful semiconductor devices for the future. The technology promises significantly reduced feature size, higher component density, improved performance and lower voltage requirements for microelectronic devices. |
BusinessWeek
September 5, 2005
Burt Helm |
Horst Stormer And The Next Tiny Thing Scientists are working to harness molecules' natural ability to bond and assemble - and organize into high-performance, nano-size transistors and sophisticated circuits that will make today's computer chips seem like simpletons. |
Technology Research News
June 16, 2004 |
Silicon Nanowires Grown in Place Researchers have found a way to grow nanowires between pairs of metal electrodes deposited on silicon wafers. |
IEEE Spectrum
December 2007
Michael Riordan |
The Silicon Dioxide Solution How physicist Jean Hoerni built the bridge from the transistor to the integrated circuit. |
Technology Research News
January 28, 2004
Eric Smalley |
Chemicals map nanowire arrays There are two challenges to getting nanowire arrays ready for prime time -- finding ways of accessing any particular nanowire junction, and connecting the devices to the outside world. Chemically modifying the right junctions could solve both problems. |
Chemistry World
December 19, 2012 |
Overcoming small obstacles What if photolithography hits a barrier it cannot breach? That question has motivated scientists to recruit chemistry to a series of printing methods with the power to engineer nanometre-scale materials. |
Industrial Physicist
Theis & Coufal |
How IBM Sustains the Leading Edge Although we constantly focus on the market, IBM Research has also produced a remarkable string of scientific firsts in physics and in other fields of science and engineering. |
