Posted on 08/11/2006 7:25:20 PM PDT by annie laurie
A single molecule, trapped between two electrodes, acts as a switch and has a memory of the type used in data storage, Swiss and US researchers have found.
Heike Riel of IBMs research labs in Zurich says this is a step along the way to making nanoscale electronic components a reality.
Using single organic molecules as electronic components could allow researchers to miniaturise circuits far more than conventional techniques allow. They also avoid the interactions between the millions of molecules found in a standard transistor that can disrupt the conduction of charge.
The scientists built their switch using a molecule called bipyridyl-dinitro oligophenylene-ethynylene dithiol (BPDN-BT) to form a bridge between two gold electrodes just 1.5 nanometres apart.
A positive voltage pulse between the electrodes was enough to change the molecule so that it became a better conductor of current, while a negative voltage returned the molecule to its less conductive state.
These distinct on and off states correspond to the 1 and 0 in the binary language used to store electronic information. The team found that the molecule could be switched on and off repeatedly, and could also be read by measuring the current flowing through it. The findings are published in the current issue of Small1.
The origin of the switching is an inherent property of the molecule, Riel told Chemistry World, and does not arise from interactions with the electrodes or the molecule-metal interface.
While this technique is designed to test properties of single molecules, nanoelectronic devices could contain 10 to 20 molecules in parallel, Riel suggested.
This switching effect has also been studied by James Tour of Rice University, Houston, US, who saw the potential of the same molecule for memory storage and reported in the journal Nano Letters last month that they had constructed nanoscale transistors from single BPDN-BT molecules in contact with three electrodes2.
David Carey, a nanotechnology researcher at the University of Surrey, Guildford, UK, agreed that this approach could lead to a new generation of nanoelectronic components, describing Riels research as an interesting piece of work. But he added that the system could be improved by a stronger, more reproducible current when the molecule is switched on.
Riels group is now trying to work out exactly what happens to the molecule during the switching process.
future science PING
It won't be long now!
That's the same stuff McDonald's shakes are made of!
OK, I want you to debug this sucker down to the electron.
LOL!
Too true, too true (along with most other fast food) :)
As one Freeper so aptly put it, french-fries these days aren't just made from "'taters & grease" ... they're more like "frankenfries" ;-)
Sounds like "current scince" ~ here's a wild guess ~ this bunch of researchers are trying to jumpstart our understanding of what happens when high frequency/low amp currents are routed through DNA.
Well, it's current science with future applications.
Next stop the Borg or Replicators..
I vote for Replicators :)
It's the year 2006 ... weren't we all supposed to have household Replicators and flying cars by now, anyway? ;-)
Please forgive the spelling errors in my prior post. Vodka and tonic was the culprit.
Cheers!
Does not sound as good as BJT.
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