First step achieved in development of tiny biological fuel cells
Washington, June 20 (ANI): Researchers at the University of Georgia (UGA), US, have achieved the first step in developing biological fuel cells that could power pacemakers, cochlear implants and prosthetic limbs.
The technique, which has been described as "a significant breakthrough for nanotechnology", involved the development of a successful way to grow molecular wire brushes that conduct electrical charges.
UGA chemist Jason Locklin and graduate students Nicholas Marshall and Kyle Sontag grew polymer brushes, made up of chains of thiophene and benzene, aromatic molecules sometimes used as solvents, attached to metal surfaces as ultra-thin films.
"The molecular wires are actually polymer chains that have been grown from a metal surface at very high density," said Locklin, who has a joint appointment in UGA's Franklin College of Arts and Science and on the Faculty of Engineering.
"The structure of the film resembles a toothbrush, where the chains of conjugated polymers are like the bristles. We call these types of coatings polymer brushes. To get chains to pack tightly in extended conformations, they must be grown from the surface, a method we call the 'grafting from' approach," he added.
Using this approach, the scientists laid down a single layer of thiophene as the film's initial coating, then built up chains of thiophene or benzene using a controlled polymerization technique.
"The beauty of organic semiconductors is how their properties change, based on size and the number of repeating units," said Locklin.
"Thiophene itself is an insulator, but by linking many thiophene molecules together in a controlled fashion, the polymers have conducting properties," he added.
More importantly, he said, "this technique gives us the control to systematically vary polymer architecture, opening up the possibility for various uses in electronic devices such as sensors, transistors and diodes."
The ultra-thin films are between 5 and 50 nanometers, which are too small to see, even under a high-powered optical microscope.
Locklin said it's difficult to harness a fuel source in the body, such as glucose, for use in biofuel cells that could replace the need for batteries in an implanted device. hile humans have enzymes in the body that do a good job of converting chemical energy into electrical energy, "they aren't very useful in this application because they have natural protective insulating layers that prevent good electron transport from active site to electrode," he said.
"Hopefully, our molecular wires will provide a better conduit for charges to flow," he added. (ANI)
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