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Semiconductor nanowire laser tech could kill viruses, purify water

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Compiled by BioPhotonics staff

A semiconductor nanowire laser technology that can kill viruses, purify drinking water and more has been discovered by scientists at the Bourns College of Engineering at the University of California, Riverside.

Although widely used for biology, data processing and information storage, ultraviolet semiconductor diode laser applications have been limited because of size, cost and power. This breakthrough in zinc oxide nanowire waveguide lasers offers smaller sizes, lower costs, higher powers and shorter wavelengths. Findings appeared online July 3 in Nature Nanotechnology (doi: 10.1038/nnano.2011.97).


From left to right, scientists Guoping Wang, a graduate student, Jianlin Liu, a professor of electrical engineering, and Sheng Chu, a graduate student, developed a nanowire laser that can kill viruses or alter cells. Courtesy of University of California, Riverside.


Until recently, zinc oxide nanowires could not be used in real-world light-emission applications because of the lack of p-type material needed by all semiconductors. Now, the researchers have doped the zinc oxide nanowires with antimony, a metalloid element, to create the p-type material. Connecting the p-type zinc oxide nanowires with n-type zinc oxide material, the scientists formed a p-n junction diode. When powered by a battery, the nanowires emit highly directional laser light from their ends.

The discovery could have a lot of impact. For biology and medical therapeutics, living cells could be penetrated with the laser, or the nanowire laser could excite or change a cell’s function from bad to good.

While the scientists have proved that p-type doping of zinc oxide and electrically powered nanowire waveguide lasing works, they said that more work must be done with the p-type material to make it more reliable and stable.
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Published: September 2011
Glossary
n-type material
A quadrivalent semiconductor material, with electrons as the majority charge carriers, that is formed by doping with donor atoms.
nano
An SI prefix meaning one billionth (10-9). Nano can also be used to indicate the study of atoms, molecules and other structures and particles on the nanometer scale. Nano-optics (also referred to as nanophotonics), for example, is the study of how light and light-matter interactions behave on the nanometer scale. See nanophotonics.
p-type material
A semiconductor material in which the dopants create holes as the majority charge carrier. It is formed by doping with acceptor atoms.
Americasbiologybiology therapeuticsBiophotonicsBioScanBourns College of EngineeringCaliforniadata processingdiode lasersDVD storage capacityinformation storageliving cellsmedical therapeuticsn-type materialnanoNewsp-type materialpurified drinking watersemiconductor nanowire laser technologyultraviolet semiconductor diode lasersUniversity of California Riversidezinc oxide nanowirezinc oxide nanowire waveguide lasersLasers

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