Taking a step closer to organic nanoelectronics
June 16th, 2010 - 5:46 pm ICT by ANIWashington, June 16 (ANI): Taking a step closer to organic nanoelectronics, scientists have found a way to order organic molecules in the PEDOT, the single most industrially important conducting polymer.
McGill’s Dr. Dmitrii Perepichka and the Institut national de la recherche scientifique’s Dr. Federico Rosei, led the study.
Although Perepichka is quick to point out that the research is not directly applicable to products currently in the market, he gives the example of a possible use for the findings in computer chips.
“It’s a well known principle that the number of transistors in a computer chip doubles every two years, but we are now reaching the physical limit. By using molecular materials instead of silicon semiconductor, we could one day build transistors that are ten times smaller than what currently exists,” he said.
The chips would in fact be only one molecule thick.
The technique sounds deceptively simple-the researchers used an inorganic material - a crystal of copper - as a template.
When molecules are dropped onto the crystal, the crystal provokes a chemical reaction and creates a conducting polymer.
By using a scanning probe microscope that enabled them to see surfaces with atomic resolution, the researchers discovered that the polymers had imitated the order of the crystal surface.
The team is currently only able to produce the reaction in one dimension, i.e. to make a string or line of molecules.
The next step will be to add a second dimension in order to make continuous sheets (”organic graphite”) or electronic circuits. (ANI)
- Polymer synthesis to pave way for more energy-efficient electronics - Jul 20, 2010
- Water could play major role in graphene nanoelectronics - Oct 27, 2010
- 'Super skin' that can sense a fly land - Feb 25, 2011
- Growing nanolasers on silicon paves way for on-chip photonics - Feb 07, 2011
- Study may lead to next-gen nanoelectronic and spintronic devices - Feb 15, 2011
- Soon nanotechnology to make computers faster - Jun 02, 2010
- Hybrid spintronic computer chips a step closer to reality - Apr 14, 2011
- Amazing car paint that covers up scratches - Apr 21, 2011
- Grid computing tunes tiny transistors for future silicon chips - Dec 05, 2009
- Now, a smart way to control molecules for new breed of electronics - Feb 21, 2011
- Transparent 3-D chips to power next gen computers - Mar 28, 2012
- Rainbow-trapping scientist opens up new possibilities for data storage - Apr 13, 2011
- Artificial cilia that respond to heat and light created - Sep 24, 2010
- Ultrathin silicon substitute to revolutionize future electronics - Nov 23, 2010
- 'Quantum dots' technology to make solar cells more efficient, cheaper - Feb 21, 2011
Tags: atomic resolution, chemical reaction, computer chip, computer chips, conducting polymer, continuous sheets, crystal surface, electronic circuits, graphite, inorganic material, institut national de la recherche scientifique, molecular materials, nanoelectronics, organic molecules, pedot, probe microscope, rosei, second dimension, silicon semiconductor, transistors