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A Step Closer to Nanotube Computers
MIT Technology Review ^ | Prachi Patel-Predd

Posted on 11/14/2006 8:25:38 PM PST by annie laurie

Stanford researchers' new etching method shows promise for bulk manufacturing of nanotube-electronics.

Semiconducting carbon nanotubes could be the centerpiece of low-power, ultra-fast electronics of the future. The challenge is getting them to work with today's manufacturing processes. Now researchers at Stanford University have made an important advance toward large-scale nanotube electronics. They have created functional transistors using an etching process that can be integrated with the methods used to carve out silicon-based computer chips.

A major roadblock to making carbon-nanotube transistors has been the difficulty of separating semiconducting tubes from a typical batch of nanotubes, in which about a third of the material is metallic. Even a tiny percentage of metallic tubes would short a device, causing it to fail. The established but tricky approach to making transistors involves separating out semiconducting nanotubes and then arranging them into circuits.

Hongjie Dai and his colleagues take a new approach. They grow a mixed bunch of semiconducting and metallic nanotubes on a silicon wafer and have them bridge the source and drain of a transistor. Then they expose the devices to methane plasma at 400 °C. The hot, ionized methane particles eat away the carbon atoms, but only in the metallic nanotubes, converting the tubes into a hydrocarbon gas. (The plasma also etches out nanotubes with diameters smaller than about 1.4 nanometers.) Next, the researchers treat the wafer in a vacuum at a temperature of 600 °C; this treatment gets rid of carbon-hydrogen groups that latch on to the semiconducting nanotubes during the plasma treatment. This leaves behind purely semiconducting nanotubes with a consistent range of diameters stretching across the source and drain.

According to Dai, the process, which the researchers described in Science last week, could be made into a bulk manufacturing process, because it is compatible with silicon-semiconductor processing. In fact, the researchers utilize a furnace that was previously used for silicon chips. The process should not be expensive once the equipment is set up, Dai adds, because "methane is really cheap and the temperature is only a few hundred degrees Celsius."

Separating nanotubes by type--according to electrical properties and diameters--has been one of the hardest and most pursued problems in materials science over the past decade, says James Heath, a chemistry professor at the California Institute of Technology in Pasadena, CA. "This recent paper by Dai's group clearly represents a new benchmark for the field," he says. "It should do quite a bit towards enabling the applications of [carbon nanotubes] towards high-performance [transistors] and other types of nanoelectronic devices."

Combining the new process with traditional separating methods would be very powerful, Dai says. Current sorting methods--growing nanotubes selectively or separating them chemically in a solution--are tedious and nonscalable, and at best they create a mix containing 5 to 10 percent metallic nanotubes. But one could use this high concentration of semiconducting material to make devices and then "add selective etching to get to 100 percent selectivity," Dai says.

Researchers at IBM had demonstrated an approach similar to Dai's in 2001 in a Science paper. To get rid of metallic nanotubes, they passed a high current through the devices, blowing out the tubes like a fuse. But the plasma etching method has an advantage. With current, one has to treat each device individually. But with heat, one can treat an entire wafer, which may contain several devices, at once. "With the [IBM] method, you have to go and individually address every single device," says Mark Hersam, materials-science and engineering professor at Northwestern University. "I can imagine some ways of doing that efficiently, but there's no doubt that you can do this Dai approach efficiently."

Hersam recently reported an advance (see "Nanotube Computing Breakthrough") in sorting nanotubes according to their electronic properties and diameters, yielding 99-percent-pure sources of semiconducting nanotubes or metallic nanotubes.

It's not easy to take presorted nanotubes and assemble them into devices, says Richard Martel, a chemistry professor at the University of Montreal. "This [Dai] method doesn't get there, but it's much closer to the reality," he says. "It's easier for translating to large-scale applications."

The technique's main constraint is that it works in a narrow diameter range, Hersam adds. As the Stanford researchers show in their paper, the plasma selectively etches metallic nanotubes only when the molecules are between 1.4 and 2 nanometers wide; the method gets rid of all nanotubes narrower than 1.4 nanometers, and leaves intact metallic and semiconducting nanotubes that are wider than 2 nanometers. Dai acknowledges this limitation and notes that "the method will have the most potential if the starting material is carefully chosen."

Martel cautions that we will need to see other breakthroughs similar to Dai's before nanotube electronics becomes a reality. But that future might not be too far off, Dai says, because other research groups have developed various elements of the nanotube-chip puzzle. "I think now it looks like we have answers for all of them," he says. "It's a matter of putting them together."


TOPICS: Miscellaneous
KEYWORDS: carbon; computer; computing; nanotech; nanotechnology; nanotube; stanford; transistor

1 posted on 11/14/2006 8:25:41 PM PST by annie laurie
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To: annie laurie

Resistance is futile.


2 posted on 11/14/2006 8:35:38 PM PST by Free Vulcan (Show them no mercy, for you shall receive none!)
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To: Free Vulcan

Even so this transistor will take place.


3 posted on 11/14/2006 8:41:01 PM PST by ThomasThomas (Hello, can you read me yet?)
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To: Free Vulcan; Ernest_at_the_Beach

[rimshot!]


4 posted on 11/14/2006 8:41:08 PM PST by SunkenCiv (I last updated my profile on Monday, November 13, 2006 https://secure.freerepublic.com/donate/)
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To: ThomasThomas

As will at least a few dozen other breakthroughs that could have some very harsh unintended consequences.


5 posted on 11/14/2006 8:51:34 PM PST by Free Vulcan (Show them no mercy, for you shall receive none!)
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To: annie laurie
Kind of like this shot from "The Island" with Ewan McGregor.

What a brave new world we live in.

6 posted on 11/14/2006 9:16:52 PM PST by Tamar1973 (I find your lack of faith disturbing--Darth Vader, Ep. IV)
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