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Quinn
05-10-2005, 05:39 PM
Big screens a growth industry for Motorola

BY HOWARD WOLINSKY Chicago Sun-TimesBusiness Reporter May 9, 2005
Motorola, a Schaumburg IL tech company, is planting carbon nanotube seeds on glass and growing TV screens that it promises will shatter the prices now being paid for big-screen TVs. It today will announce it is ready to begin marketing a new technology to "grow" large-screen TVs using atom-sized carbon nano tubes as seeds with the potential to produce superior images at a fraction of the price of today's big screens.

And here's some news sports fans will welcome: A Motorola spokesman said the images are so sharp that even fast-moving objects, such as hockey pucks and baseballs, are visible without blurring or disappearing.

"With over 15 years experience and 160 patents in carbon nanotube technology and flat panel displays, we have developed a technology that could enable the next generation of large-size flat-panel displays to deliver an extraordinary visual experience at a fraction of current prices," said Jim O'Connor, vice president of Motorola technology incubation and commercialization.

He said a 40-inch screen will cost less than $400. This compares with 40-inch liquid-crystal plasma screens costing $2,500 and up today. The company has produced a first-of-its kind, 5-inch-wide prototype that is less than an inch thick for use as a high-definition screen. O'Connor said the process could easily be scaled up to a 42-inch display for a TV or computer display.

Motorola can grow a carbon nanotube in less than two minutes. In a manufacturing environment it will take one to five minutes. A carbon nanotube is 10,000 times thinner than a strand of human hair. Motorola is shopping the technology to other manufacturers, and O'Connor predicted carbon nanotube TVs will be on the market within two years.

Motorola itself pulled out of TV manufacturing in the 1970s, and ceased making flat-panel displays for computers in the 1990s. However, O'Connor said the company continued its research program in laboratories here and in Phoenix.

Barry Young, vice president of DisplaySearch, a flat panel display market research and consulting company in Texas, said carbon nanotubes make superior TV images because they "are near perfect conductors, and can emit electrons efficiently when sufficient current is passed."

He said Samsung, SDI and ITRI have all built carbon nanotube prototypes, but have had quality problems. They slather a carbon nanotube paste on glass, a process compared to putting peanut butter on bread. But not all the carbon tubes line up in the same direction using that slapdash technique.

Young said Moto's breakthrough involves a catalyst that can be placed on glass. The result is uniform and accurate positioning of the nanotubes. He said if one nanotube fails, another is there as a backup. "Motorola has also figured out a way to ensure that a very high percentage of the electrons hit the proper phosphor dot."
He noted that the approach still has to be demonstrated in mass production.

O'Connor said the nano-emissive technology using cathode ray display in a flat-screen format produces images with better brightness, contrast, color and viewing angle than plasma or LCDs.

The technology has other potential applications, such as large screens for sports stadiums and billboard advertising, as well as use in devices to detect and eradicate infectious microbes, and also in fuel and solar cells, ultra-small transistors and memory chips.

"The technology is ready to deliver now," said O'Connor.

Motorola will be presenting its prototype May 22 at the Society for Information Display International Symposium in Boston.

WHAT IS NANOTECHNOLOGY?

It's the science and technology of building anything from single atoms and molecules.

Manufactured products are made from atoms, and the properties of those products depend on how those atoms are arranged.

If engineers rearrange the atoms in coal, they can make diamonds. If the rearrange the atoms in sand (and add a few other trace elements), they can make computer chips.

If they rearrange the atoms in dirt, water and air, they can make potatoes.

In the future, we'll be able to snap together the fundamental building blocks of nature easily and inexpensively. This will be essential if we are to continue the revolution in computer hardware beyond about the next decade, and will also let us fabricate an entire new generation of products that are cleaner, stronger, lighter and more precise.

Contributing: Ralph Merkle, Georgia Tech University

bikeman
05-10-2005, 06:11 PM
This gives me an excellent excuse to give audio companies all my money over the next two to three years. I'll upgrade the video last.

David

bri1270
05-16-2005, 03:09 AM
I'm with you David. I was seriously considering a new tv, most likely a plasma, but I've been himming and hawwing over the cost. Now I'm definitely waiting. The tv I have now is pretty good, and there's no realy reason to upgrade other than size and desire.

Quinn
05-16-2005, 05:32 AM
Anyone know how flexible carbon tubes are? I'm envisioning a pull down large screen that rolls up when not in use. That would have some real WAF value.

Even without carbon nano tubes I think everything will continue to come down in price.

bri1270
05-16-2005, 06:26 AM
I think it's ironic that the oldest technology (CRT) still produces the best picture...but I am looking forward to seeing what the nano tube tv's look like.