Tag Archives: Semiconductor

IBM Labs develops ‘initial step’ towards commercial fabrication of carbon nanotubes

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IBM Labs team develops 'initial step' towards commercial fabrication of carbon nanotubes

Commercialization of carbon nanotubes is one of the holy grails of next-gen computing, and IBM thinks it's made crucial steps toward making this a reality. This isn't the first time that we've heard such a claim, of course, but IBM's considerable resources will make this particularly interesting. The specific problem it's been tackling is placing enough semiconducting nanotubes together to be useful in commercial chips, with current attempts being more in the hundreds, rather than billions that would be required. The new approach uses ion-exchange chemistry that allows controlled placement of nanotubes at two orders of magnitude greater than before, with a density of roughly a billion per square centimeter. To achieve this, the nanotubes are mixed with a soap-like substance that makes them water-soluble. Next, a substrate comprising two oxides and a hafnium oxide "trench" is immersed in the soap-solution, which results in the nanotubes attaching to the hafnium oxide canals with a chemical bond. Simple when you think about it! IBM hopes that as the materials and method are readily accessible now, that industry players will be able to experiment with nanotube technology at a much greater scale. Though, as we've become accustomed, there's no solid timescales on when this might realistically unfold.

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IBM Labs develops 'initial step' towards commercial fabrication of carbon nanotubes originally appeared on Engadget on Sun, 28 Oct 2012 14:00:00 EDT. Please see our terms for use of feeds.

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New process for nanotube semiconductors could be graphene’s ticket to primetime (video)

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New patented nanotube semiconductors could be graphene's ticket to primetime

In many ways, graphene is one of technology's sickest jokes. The tantalizing promise of cheap to produce, efficient to run materials, that could turn the next page in gadget history has always remained frustratingly out of reach. Now, a new process for creating semiconductors grown on graphene could see the super material commercialized in the next five years. Developed at the Norwegian University of Science and Technology, the patented process "bombs" graphene with gallium, which forms droplets, and naturally arranges itself to match graphene's famous hexagonal pattern. Then, arsenic is added to the mix, which enters the droplets and crystallizes at the bottom, creating a stalk. After a few minutes of this process the droplets are raised by the desired height. The new process also does away with the need for a (relatively) thick substrate to grow the nanowire on, making it cheaper, more flexible and transparent. The inventors state that this could be used in flexible and efficient solar cells and light emitting diodes. We say forward the revolution.

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New process for nanotube semiconductors could be graphene's ticket to primetime (video) originally appeared on Engadget on Sun, 30 Sep 2012 12:15:00 EDT. Please see our terms for use of feeds.

Permalink GizMag  |  sourceNTNU  | Email this | Comments

Samsung spending $4 billion to renovate Austin chip factory

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Samsung spending $4 billion to renovate Austin semiconductor factory

Premiership footballers will be weeping in envy at the way Samsung's been spending its cash this month. After splashing $822 million on a Korean R&D center, it's now chucking $4 billion to renovate its semiconductor factory in Austin, Texas. The cash will be used to increase production on system-on-chip products used in a wide variety of smartphones and tablets, presumably to cope with future demand. It's not clear if this investment is in addition to the $1 billion it was raising in January to add a new SOC and OLED line to the same facility, but it's certainly a good time to be living in Texas, right now.

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Samsung spending $4 billion to renovate Austin chip factory originally appeared on Engadget on Tue, 21 Aug 2012 06:33:00 EDT. Please see our terms for use of feeds.

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IBM creates consistent electron spin inside semiconductors, takes spintronics one twirl closer

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IBM creates consistent electron spin inside of a chip, takes spintronics one twirl closer

A fundamental challenge of developing spintronics, or computing where the rotation of electrons carries instructions and other data rather than the charge, has been getting the electrons to spin for long enough to shuttle data to its destination in the first place. IBM and ETH Zurich claim to be the first achieving that feat by getting the electrons to dance to the same tune. Basing a semiconductor material on gallium arsenide and bringing the temperature to an extremely low -387F, the research duo have created a persistent spin helix that keeps the spin going for the 1.1 nanoseconds it would take a normal 1GHz processor to run through its full cycle, or 30 times longer than before. As impressive as it can be to stretch atomic physics that far, just remember that the theory is some distance from practice: unless you're really keen on running a computer at temperatures just a few hops away from absolute zero, there's work to be done on producing transistors (let alone processors) that safely run in the climate of the family den. Assuming that's within the realm of possibility, though, we could eventually see computers that wring much more performance per watt out of one of the most basic elements of nature.

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IBM creates consistent electron spin inside semiconductors, takes spintronics one twirl closer originally appeared on Engadget on Mon, 13 Aug 2012 14:41:00 EDT. Please see our terms for use of feeds.

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Researchers make unsuitable parts work as solar cells, could lead to cheaper panels

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Researchers make unsuitable parts work as solar cells, could lead to cheaper panels

Harnessing the power of the sun is a tricky business, but even the past few weeks have seen some interesting developments in the field. In this latest installment, researchers from the Lawrence Berkeley National Laboratory and the University of California have figured out a way of making solar cells from any semiconductor, potentially reducing the cost of their production. You see, efficient solar cells require semiconductors to be chemically modified for the current they produce to flow in one direction. The process uses expensive materials and only works with a few types of semiconductors, but the team's looking at using ones which aren't normally suitable -- the magic is to apply an electrical field to them. This field requires energy, but what's consumed is said to be a tiny fraction of what the cell's capable of producing when active, and it means chemical modification isn't needed.

The concept of using a field to standardize the flow of juice isn't a new one, but the team's work on the geometrical structure of the cells has made it a reality, with a couple of working prototypes to satisfy the skeptics. More of these are on the way, as their focus has shifted to which semiconductors can offer the best efficiency at the lowest cost. And when the researchers have answered that question, there's nothing left to do but get cracking on commercial production. For the full scientific explanation, hit up the links below.

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Researchers make unsuitable parts work as solar cells, could lead to cheaper panels originally appeared on Engadget on Sat, 11 Aug 2012 11:34:00 EDT. Please see our terms for use of feeds.

Permalink Ars Technica, ScienceDaily  |  sourceNano Letters  | Email this | Comments

Samsung swallows up CSR mobile and location patents for $310 million

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Samsung swallows up CSR mobile and location patents for $310 millionThe S-Wallet has opened and absorbed $310 million-worth of connectivity and location patents from British chip company CSR, which already supplies SiRF GPS chips to Galaxy devices. In addition to boosting its patent portfolio, Samsung also invested $34 million to buy a five percent stake in the firm itself, giving it access to a large development team working on audio, automotive, indoor location and other functions. The deal won't let Samsung use CSR's camera technology, but it will -- the Korean manufacturer says -- "solidify its position as a leading semiconductor solutions provider." Given how Sammy is already intent going it alone with its Exynos processors, we have no reason to doubt it.

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Samsung swallows up CSR mobile and location patents for $310 million originally appeared on Engadget on Tue, 17 Jul 2012 06:23:00 EDT. Please see our terms for use of feeds.

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Intel to buy 15 percent of silicon fab equipment maker ASML, wants manufacturing machines made faster

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Intel to buy 15 percent of silicon lithography equipment maker ASML, wants chip fab machines made more quickly Chipzilla didn't get its position as the king of semiconductors by twiddling its thumbs, folks. It became a Valley behemoth by delivering us faster and better silicon, and its latest $4.1 billion purchase -- a 15 percent stake in silicon manufacturing equipment maker ASML Holding NV -- should help keep Intel atop the CPU heap. You see, Intel's in the process of retooling its chip manufacturing process to use bigger diameter silicon wafers, which'll make those Ivy Bridge, ValleyView and other future chips cheaper for all of us. Such retooling can take years to implement, which is likely why Intel was willing to plunk down so much cash to ensure nothing futzes with its manufacturing timetable. The company's investment will presumably give it the clout to get ASML's crucial lithography equipment on the fast track to completion. Hop to it, fellas, we want our CPUs at bargain-basement prices, and we want them now.

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Intel to buy 15 percent of silicon fab equipment maker ASML, wants manufacturing machines made faster originally appeared on Engadget on Tue, 10 Jul 2012 01:05:00 EDT. Please see our terms for use of feeds.

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Qualcomm enlists Samsung, UMC to help meet 28nm Snapdragon S4 demand

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Qualcomm enlists Samsung, UMC to help meet 28nm Snapdragon S4 demand

Qualcomm's Snapdragon S4 chipset is certainly hot (well, not too hot), but it looks like demand is expected to grow even further, causing the San Diego-based SoC maker to turn to allies in the east to help beef up supply. According to China Economic News Service, United Microelectronics Corp. (UMC) and Korea-based Samsung will join Taiwan Semiconductor Manufacturing Co. (TSMC) to manufacturer the 28nm chips beginning later this year, in an attempt to increase S4 availability ahead of the Windows RT launch. The article cites Qualcomm CEO Paul Jacobs as saying that a shortage is expected to continue, due to the complicated techniques necessary to manufacturer 28nm chips, and that the company may consider adding its own manufacturing plant in the future. All in all, it doesn't seem like a terrible position for QCOM to be in. Full details are at the Taiwanese source link below.

Qualcomm enlists Samsung, UMC to help meet 28nm Snapdragon S4 demand originally appeared on Engadget on Wed, 04 Jul 2012 16:34:00 EDT. Please see our terms for use of feeds.

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Micron scoops up Elpida Memory, 50-percent production boost for $2.5 billion

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Micron scoops up Elpida Memory, 50percent production boost for $25 billion

There's no question that Micron has shifted its focus away from PCs in favor of producing components, shipping everything from SSDs to CMOS sensors in recent years, but the semiconductor manufacturer just took a $2.5 billion step even closer to bridging its gap between other companies in the same market, including Samsung, the chip producer's top competitor. Under the deal, Elpida Memory, which is headquartered in Tokyo, will fall within the Idaho-based conglomerate's growing umbrella, netting Micron a 50-percent boost in production capability. That increase did come at great expense, however -- the transaction included $750 million in cash and $1.75 billion in future installments (1,750 easy payments of one million dollars?), which are set to continue through 2019. The acquisition was also paired with a 24-percent stake in Rexchip Electronics for an additional $334 million, which will complement Elpida's investment, yielding a total 89-percent stake for Micron. While the amount does seem quite significant, investors appear to be on board, with Micron's stock ($MU) currently up more than 4 percent since this morning. Both deals will reportedly close within the next year.

Micron scoops up Elpida Memory, 50-percent production boost for $2.5 billion originally appeared on Engadget on Mon, 02 Jul 2012 19:39:00 EDT. Please see our terms for use of feeds.

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Sony, Sumitomo push laser projectors forward with a new, more powerful green laser diode

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Sony, Sumitomo codevelop a more powerful green laser diode for projectors

As cool as lasers are, so far there are precious few commercially available display devices available that use them. That may change with this new green semiconductor laser diode announced by Sony and Sumitomo, capable of the brightness necessary to replace the more expensive light sources used to fill in the middle of the RGB setup. According to the two companies, it's the world's first one capable of over 100mW power at 530nm, which they think will make it a fit for both advanced projectors and compact light projectors. Check after the break for more details on how the technology came to be -- drawing heavily on Sumitomo's production techniques and Sony's GaN laser technology developed with Blu-ray -- we'll let you know when there's a LaserVue or REDray setup priced for general consumption.

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Sony, Sumitomo push laser projectors forward with a new, more powerful green laser diode originally appeared on Engadget on Thu, 21 Jun 2012 07:47:00 EDT. Please see our terms for use of feeds.

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