. Space Industry and Business News .




.
CHIP TECH
UWM discovery advances graphene-based electronics
by Staff Writers
Milwaukee WI (SPX) Apr 17, 2012

Physics Professor Michael Weinert and engineering graduate student Haihui Pu display the atomic structure on GMO. (Photos by Alan Magayne-Roshak).

Scientists and engineers at the University of Wisconsin-Milwaukee (UWM) have discovered an entirely new carbon-based material that is synthesized from the "wonder kid" of the carbon family, graphene. The discovery, which the researchers are calling "graphene monoxide (GMO)," pushes carbon materials closer to ushering in next-generation electronics.

Graphene, a one-atom-thick layer of carbon that resembles a flat sheet of chicken wire at nanoscale, has the potential to revolutionize electronics because it conducts electricity much better than the gold and copper wires used in current devices.

Transistors made of silicon are approaching the minimum size at which they can be effective, meaning the speed of devices will soon bottom out. Carbon materials at nanoscale could be the remedy.

Currently, applications for graphene are limited because it's too expensive to mass produce. Another problem is that, until now, graphene-related materials existed only as conductors or insulators.

"A major drive in the graphene research community is to make the material semiconducting so it can be used in electronic applications," says Junhong Chen, professor of mechanical engineering and a member of the research team. "Our major contribution in this study was achieved through a chemical modification of graphene."

GMO exhibits characteristics that will make it easier to scale up than graphene. And, like silicon in the current generation of electronics, GMO is semiconducting, necessary for controlling the electrical current in such a strong conductor as graphene.

Now all three characteristics of electrical conductivity - conducting, insulating and semiconducting - are found in the carbon family, offering needed compatibility for use in future electronics.

Mixing theory and experiments
The team created GMO while conducting research into the behavior of a hybrid nanomaterial engineered by Chen that consists of carbon nanotubes (essentially, graphene rolled into a cylinder) decorated with tin oxide nanoparticles. Chen uses his hybrid material to make high-performance, energy-efficient and inexpensive sensors.

To image the hybrid material as it was sensing, he and physics professor Marija Gajdardziska used a high-resolution transmission electron microscope (HRTEM).

But to explain what was happening, the pair needed to know which molecules were attaching to the nanotube surface, which were attaching to the tin oxide surface, and how they changed upon attachment.

So the pair turned to physics professor Carol Hirschmugl, who recently pioneered a method of infrared imaging (IR) that not only offers high-definition images of samples, but also renders a chemical "signature" that identifies which atoms are interacting as sensing occurs.

Chen and Gajdardziska knew they would need to look at more attachment sites than are available on the surface of a carbon nanotube. So they "unrolled" the nanotube into a sheet of graphene to achieve a larger area.

That prompted them to search for ways to make graphene from its cousin, graphene oxide (GO), an insulator that can be scaled up inexpensively. GO consists of layers of graphene stacked on top of one another in an unaligned orientation. It is the subject of much research as scientists look for cheaper ways to replicate graphene's superior properties.

Puzzling outcome
In one experiment, they heated the GO in a vacuum to reduce oxygen. Instead of being destroyed, however, the carbon and oxygen atoms in the layers of GO became aligned, transforming themselves into the "ordered," semiconducting GMO - a carbon oxide that does not exist in nature.

It was not the result they expected.

"We thought the oxygen would go away and leave multilayered graphene, so the observation of something other than that was a surprise," says Eric Mattson, a doctoral student of Hirschmugl's.

At different high temperatures, the team actually produced four new materials that they collectively refer to as GMO. They captured video of the process using Selected Area Electron Diffraction (SAED) in a transmission electron microscope.

Because GMO is formed in single sheets, Gajdardziska says the material could have applications in products that involve surface catalysis. She, Hirschmugl and Chen also are exploring its use in the anode parts of lithium-ion batteries, which could make them more efficient.

Laborious process
But the next step is more science. The team will need to find out what triggered the reorganization of the material, and also what conditions would ruin the GMO's formation.

"In the reduction process, you expect to lose oxygen," says Michael Weinert, professor of physics and director of UWM's Laboratory for Surface Studies. "But we actually gained more oxygen content. So we're at a point where we're still learning more about it."

Weinert points out that they have only made GMO at a small scale in a lab and are not certain what they will encounter in scaling it up.

The team had to be careful in calculating how electrons flowed across GMO, he adds. Interactions that occur had to be interpreted through a painstaking process of tracking indicators of structure and then eliminating those that didn't fit.

"It was a long process," says Weinert, "not one of those 'Eureka!' moments."

Related Links
University of Wisconsin-Milwaukee
Computer Chip Architecture, Technology and Manufacture
Nano Technology News From SpaceMart.com




.
.
Get Our Free Newsletters Via Email
...
Buy Advertising Editorial Enquiries






.

. Comment on this article via your Facebook, Yahoo, AOL, Hotmail login.

Share this article via these popular social media networks
del.icio.usdel.icio.us DiggDigg RedditReddit GoogleGoogle



CHIP TECH
Raytheon Seeks to Triple Gallium Nitride Capabilities
Tewksbury, MA (SPX) Apr 16, 2012
Raytheon has been awarded an 18-month, $1.8 million contract by the Defense Advanced Research Projects Agency (DARPA) to develop next-generation Gallium Nitride devices bonded to diamond substrates. The technology, called Thermally Enhanced Gallium Nitride (TEGaN), seeks to increase the power handling capability of GaN devices by at least three times. TEGaN enables state-of-the-art t ... read more


CHIP TECH
New Technique Helps Ensure Reliability of Microelectronic Devices, PV Cells and MEMS Applications

Topological Transitions In Metamaterials

Raytheon Delivers US Navy's First Dual-Frequency Sonar

More 'mini-iPad' rumors surface

CHIP TECH
Fourth Boeing-built WGS Satellite Accepted by USAF

Raytheon to Continue Supporting Coalition Forces' Information-Sharing Computer Network

Northrop Grumman Wins Contract for USAF Command and Control Modernization Program

TacSat-4 Enables Polar Region SatCom Experiment

CHIP TECH
Canadarm2 to Catch SpaceX's Dragon on Its Maiden Voyage to the ISS

How to Buy a Launch Vehicle

'Good chance' for SpaceX April 30 launch to ISS: NASA

Dragon Expected to Set Historic Course

CHIP TECH
Lockheed Martin and Raytheon Complete Major GPS Integration Milestone

New Technology Tracks Sparrow Migration for First Time from California to Alaska

Galileo satellites intensify competition on the market of navigation

Hardware 'bug' hits TomTom nav devices

CHIP TECH
Boeing Celebrates 4,000th Next-Generation 737

Bats save energy by drawing in wings on upstroke

Air tax feud may affect climate change talks: US envoy

Dutch plan to gas troublesome airport geese

CHIP TECH
UWM discovery advances graphene-based electronics

New X-ray technique reveals structure of printable electronics

Intel earnings beat expectations

Raytheon Seeks to Triple Gallium Nitride Capabilities

CHIP TECH
FCC drops Google 'Street View' investigation

Envisat services interrupted

ITT Exelis delivers imaging system for next-generation, high-resolution GeoEye-2 satellite

Biggest environment satellite goes silent

CHIP TECH
Huge tyre fire causes Kuwait 'catastrophe'

Black carbon ranked number two climate pollutant by US EPA

35,000 gallons of prevention

State of the planet


Memory Foam Mattress Review

Newsletters :: SpaceDaily Express :: SpaceWar Express :: TerraDaily Express :: Energy Daily
XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News

.

The content herein, unless otherwise known to be public domain, are Copyright 1995-2012 - Space Media Network. AFP, UPI and IANS news wire stories are copyright Agence France-Presse, United Press International and Indo-Asia News Service. ESA Portal Reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. Privacy Statement