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Graphene Able to Transport Huge Currents on the Nano Scale
I-Connect007 ^ | January 12, 2017

Posted on 01/12/2017 2:33:20 PM PST by 2ndDivisionVet

Once again, graphene has proven itself to be a rather special material: an international research team led by Professor Fritz Aumayr from the Institute of Applied Physics at TU Wien was able to demonstrate that the electrons in graphene are extremely mobile and react very quickly. Impacting xenon ions with a particularly high electric charge on a graphene film causes a large number of electrons to be torn away from the graphene in a very precise spot. However, the material was able to replace the electrons within some femtoseconds. This resulted in extremely high currents, which would not be maintained under normal circumstances. Its extraordinary electronic properties make graphene a very promising candidate for future applications in the field of electronics.

The Helmholtz-Center Dresden-Rossendorf and the University of Duisburg-Essen participated in the experiment alongside TU Wien. The international team received theoretical support from Paris and San Sebastian as well as from in-house staff (Institute of Theoretical Physics at TU Wien).

Highly charged ions

‘We work with extremely highly-charged xenon ions,’ explains Elisabeth Gruber, a PhD student from Professor Aumayr’s research team. ‘Up to 35 electrons are removed from the xenon atoms, meaning the atoms have a high positive electric charge.’

These ions are then fired at a free-standing single layer of graphene, which is clamped between microscopically small brackets. ‘The xenon ion penetrates the graphene film, thereby knocking a carbon atom out of the graphene – but that has very little effect, as the gap that has opened up in the graphene is then refilled with another carbon atom,’ explains Elisabeth Gruber. ‘For us, what is much more interesting is how the electrical field of the highly charged ion affects the electrons in the graphene film.’

This happens even before the highly charged xenon ion collides with the graphene film. As the highly charged ion is approaching it starts tearing electrons away from the graphene due to its extremely strong electric field. By the time the ion has fully passed through the graphene layer, it has a positive charge of less than 10, compared to over 30 when it started out. The ion is able to extract more than 20 electrons from a tiny area of the graphene film.

This means that electrons are now missing from the graphene layer, so the carbon atoms surrounding the point of impact of the xenon ions are positively charged. ‘What you would expect to happen now is for these positively charged carbon ions to repel one another, flying off in what is called a Coulomb explosion and leaving a large gap in the material,’ says Richard Wilhelm from the Helmholtz-Center Dresden-Rossendorf, who currently works at TU Wien as a postdoctoral assistant. ‘But astoundingly, that is not the case. The positive charge in the graphene is neutralised almost instantaneously.’

This is only possible because a sufficient number of electrons can be replaced in the graphene within an extremely short time frame of several femtoseconds (quadrillionths of a second). ‘The electronic response of the material to the disruption caused by the xenon ion is extremely rapid. Strong currents from neighbouring regions of the graphene film promptly resupply electrons before an explosion is caused by the positive charges repelling one another,’ explains Elisabeth Gruber. ‘The current density is around 1000 times higher than that which would lead to the destruction of the material under normal circumstances – but over these distances and time scales, graphene can withstand such extreme currents without suffering any damage.’

Ultra-fast electronics

This extremely high electron mobility in graphene is of great significance for a number of potential applications: ‘The hope is that for this very reason, it will be possible to use graphene to build ultra-fast electronics. Graphene also appears to be excellently suited for use in optics, for example in connecting optical and electronic components,’ says Aumayr.


TOPICS: Business/Economy; Science
KEYWORDS: electricity; electronics; graphene; materials
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1 posted on 01/12/2017 2:33:21 PM PST by 2ndDivisionVet
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To: 2ndDivisionVet

Modern day’s cold fusion, lot of hot air but never delivers


2 posted on 01/12/2017 2:36:44 PM PST by Rebel2016
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To: 2ndDivisionVet

I’mgetting dizzy. We need to ban hyphenated names. I couldn’t get past Dresden-Schnitzel.


3 posted on 01/12/2017 2:39:13 PM PST by Seruzawa (All those memories will, be lost, like tears in rain.)
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To: Seruzawa

A charbroiled sausage.


4 posted on 01/12/2017 2:42:16 PM PST by BenLurkin (The above is not a statement of fact. It is either satire or opinion. Or both.)
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To: BenLurkin

Wow! Exactly what I thought.

You win!


5 posted on 01/12/2017 2:45:40 PM PST by SolidRedState (I used to think bizarro world was a fiction.)
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To: 2ndDivisionVet

Sorry, bombarding carbon with xenon atoms stripped of up to 35 of their electrons makes me really geek out. I wish I were there.


6 posted on 01/12/2017 2:46:28 PM PST by rightwingcrazy
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To: 2ndDivisionVet

Once again, graphene has proven itself to be a rather special material:

...

For researchers it is. As far as commercial applications go, it’s a dud.


7 posted on 01/12/2017 2:47:26 PM PST by Moonman62 (Make America Great Again!)
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To: 2ndDivisionVet
An amazing element, carbon!

No wonder the Demwits are trying to outlaw it...

Thanks for posting! ;)

8 posted on 01/12/2017 2:47:30 PM PST by amorphous
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To: 2ndDivisionVet

Where do these replacement electrons come from? That’s something that I’ve always wondered, even with photoelectrics: The photon drives off electrons to generate a current, but the silicon remains. HOW? Where do the “new” electrons come from?


9 posted on 01/12/2017 2:53:17 PM PST by Don W ( When blacks riot, neighborhoods and cities burn. When whites riot, nations and continents burn.)
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To: BenLurkin

A brat? What beer goes with that?


10 posted on 01/12/2017 2:54:09 PM PST by AFreeBird (BEST. ELECTION. EVER!)
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To: Don W

A tiny black hole?


11 posted on 01/12/2017 2:59:30 PM PST by 2ndDivisionVet (You cannot invade the mainland US. There'd be a rifle behind every blade of grass.)
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To: Moonman62

Mixed with plastic it’s incredibly strong, bullet proof.


12 posted on 01/12/2017 3:04:26 PM PST by Husker24
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To: Moonman62

“As far as commercial applications go, it’s a dud.”

But I want a million watt graphene tube guitar amp!


13 posted on 01/12/2017 3:16:05 PM PST by Dr. Bogus Pachysandra (Don't touch that thing Don't let anybody touch that thing!I'm a Doctor and I won't touch that thing!)
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To: 2ndDivisionVet
Graphene is a zero-gap semiconductor, because its conduction and valence bands meet at the Dirac points. The Dirac points are six locations in momentum space, on the edge of the Brillouin zone, divided into two non-equivalent sets of three points. The two sets are labeled K and K'. The sets give graphene a valley degeneracy of gv = 2. By contrast, for traditional semiconductors the primary point of interest is generally Γ, where momentum is zero. Four electronic properties separate it from other condensed matter systems.
14 posted on 01/12/2017 3:16:14 PM PST by HandyDandy (Don't make up stuff. It wastes time.)
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To: Husker24

Is it sold anywhere for that purpose?


15 posted on 01/12/2017 3:18:16 PM PST by Moonman62 (Make America Great Again!)
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To: 2ndDivisionVet

Femto’s, is that like Fembots?


16 posted on 01/12/2017 3:27:24 PM PST by Company Man (Best election evah!)
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To: HandyDandy
Graphene is a zero-gap semiconductor, because its conduction and valence bands meet at the Dirac points.

How can I decipher all of what you said? Can I ask Meryl Streep or Tom Hanks? They're always talking like they know stuff. /s

(I was an IT engineer for decades before retiring, was asked by receptionists and others if they could get my job after taking a course or two at the local community college. I would laugh in their faces, and say no...)

17 posted on 01/12/2017 3:30:39 PM PST by roadcat
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To: 2ndDivisionVet

Isn’t “Yuge” now a technical/scientific term?


18 posted on 01/12/2017 3:32:00 PM PST by Paladin2 (No spellcheck. It's too much work to undo the auto wrong word substitution on mobile devices.)
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To: Moonman62
As far as commercial applications go, it’s a dud.

Not really, graphene based products are already hitting the market:

"Turnigy Graphene packs utilize carbon in the battery structure to form a single layer of graphene just 0.335nm thick, making that type of battery substrate the thinnest known to mankind. The graphene particles form a highly dense compound allowing electrons to flow with less resistance compared to traditional Lipoly battery technologies. The result is a battery capable of maintaining greater power output whilst remaining much cooler under load. Since heat and resistance are the natural enemy of batteries Graphene chemistry has significantly reduced these problems and the result is an incredible boost in cycle life. Turnigy Graphene batteries are the new standard for serious hobbyists who require POWER ON DEMAND."

https://hobbyking.com/en_us/batteries-accessories/turnigy-graphene-2.html

19 posted on 01/12/2017 3:34:03 PM PST by amorphous
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To: 2ndDivisionVet; BenLurkin; roadcat; HandyDandy; Salamander

Here is a real world practical application for this cutting edge technology -

https://www.youtube.com/watch?v=RXJKdh1KZ0w


20 posted on 01/12/2017 3:38:05 PM PST by shibumi (Cover it with gas and set it on fire.)
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