Applying quantum physics, he and his group developed a computer model of an organometallic molecule firmly bound between two gold electrodes. Then he turned on the juice.
As the laws of physics would suggest, the current increased along with the voltage, until it rose to a miniscule 142 microamps. Then suddenly, and counterintuitively, it dropped, a mysterious phenomenon known as negative differential resistance, or NDR. Pati was astonished at what his analysis of the NDR revealed.
Up until the 142-microamp tipping point, the molecule's cloud of electrons had been whizzing about the nucleus in equilibrium, like planets orbiting the sun. But under the bombardment of the higher voltage, that steady state fell apart, and the electrons were forced into a different equilibrium, a process known as "quantum phase transition."
"I never thought this would happen," Pati said. "I was really excited to see this beautiful result."
Why is this important? A molecule that can exhibit two different phases when subjected to electric fields has promise as a switch: one phase is the "zero" and the other the "one," which form the foundation of digital electronics. ###
Pati is working with other scientists to test the model experimentally. His results appear in the article "Origin of Negative Differential Resistance in a Strongly Coupled Single Molecule-metal Junction Device," published June 16 in Physical Review Letters. The other coauthors are Mike McClain, an undergraduate from Michigan Tech; and Anirban Bandyopadhyay, of the National Institute for Materials Science, Japan. The work of Pati's team was financed by a five-year, $400,000 Faculty Early Career Development Program award he received from the National Science Foundation.
An abstract and a PDF file of the article are available at Origin of Negative Differential Resistance in a Strongly Coupled Single Molecule-Metal Junction Device
Contact: Marcia Goodrich mtunews@mtu.edu 906-487-2343 Michigan Technological University
Tags: Nano or Nanotechnology and Nanotech
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