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Shewanella bacteria (shown in blue) forming
nanotubes.
Credit: Hor-Gil Hur, GIST
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The team, including Nosang V. Myung, associate
professor of chemical and environmental engineering in the Bourns
College of Engineering, and his postdoctoral researcher Bongyoung Yoo,
found the bacterium Shewanella facilitates the formation of
arsenic-sulfide nanotubes that have unique physical and chemical
properties not produced by chemical agents.
�We have shown that a jar with a bug in it can create potentially
useful nanostructures,� Myung said. �Nanotubes are of particular
interest in materials science because the useful properties of a
substance can be finely tuned according to the diameter and the
thickness of the tubes.�
The whole realm of electronic devices which power our world, from
computers to solar cells, today depend on chemical manufacturing
processes which use tremendous energy, and leave behind toxic metals
and chemicals. Myung said a growing movement in science and
engineering is looking for ways to produce semiconductors in more
ecologically friendly ways.
Two members of the research team, Hor Gil Hur and Ji-Hoon Lee from
Gwangju Institute of Science and Technology (GIST), Korea, first
discovered something unexpected happening when they attempted to
remediate arsenic contamination using the metal-reducing bacterium
Shewanella. Myung, who specializes in electro-chemical material
synthesis and device fabrication, was able to characterize the
resulting nano-material.
The photoactive arsenic-sulfide nanotubes produced by the bacteria
behave as metals with electrical and photoconductive properties. The
researchers report that these properties may also provide novel
functionality for the next generation of semiconductors in nano- and
opto-electronic devices.
In a process that is not yet fully understood, the Shewanella
bacterium secretes polysacarides that seem to produce the template for
the arsenic sulfide nanotubes, Myung explained. The practical
significance of this technique would be much greater if a bacterial
species were identified that could produce nanotubes of cadmium
sulfide or other superior semiconductor materials, he added.
�This is just a first step that points the way to future investigation,�
he said. �Each species of Shewanella might have individual
implications for manufacturing properties.�
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