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Evident Publishes Quantum Dot History

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TROY, N.Y., Nov. 3 -- Evident Technologies, a developer of quantum dot nanomaterials, has launched "The Quantum Dot History Project," an online overview of key research on the topic covering 1960-1996.

"We are publishing this overview as our commitment to pioneers who did the early work in this field and to future scientists and developers who want to use quantum dots to create revolutionary change," said Clinton Ballinger, PhD, CEO of Evident Technologies. "The early semiconductor work of Bell Labs in 1947 led to a whole revolution in electronics, forever changing our world. An open and free flowing exchange of ideas and knowledge in our field, which our overview celebrates, could help improve so many areas of our life."

Quantum dots are semiconductor crystals typically between 1 and 10 nanometers in diameter and have unique properties between that of single molecules and bulk materials. Quantum dots offer tunable optical and electronic properties that can work around natural limits inherent in traditional semiconductors.

"Quantum dots are a versatile form of semiconductors that mean scientists and engineers are no longer shackled by the fixed properties of nature," Ballinger added. "With quantum dots, new materials can be engineered to fit a need, solve a problem and create new products or even markets."

The company seeks all relevant peered-reviewed papers and said it will award a juried prize, a $500 Amazon.com gift certificate, for the earliest published research entry accepted; an Apple iPod nano for each of the next two earliest published entries accepted; and a $10 Amazon gift certificate for each novel history addition accepted. Deadline for submission is Jan. 31, 2006. To view the history or enter the contest, visit: http://www.evidenttech.com/history


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Published: November 2005
Glossary
quantum dots
A quantum dot is a nanoscale semiconductor structure, typically composed of materials like cadmium selenide or indium arsenide, that exhibits unique quantum mechanical properties. These properties arise from the confinement of electrons within the dot, leading to discrete energy levels, or "quantization" of energy, similar to the behavior of individual atoms or molecules. Quantum dots have a size on the order of a few nanometers and can emit or absorb photons (light) with precise wavelengths,...
Evident TechnologiesMaterialsNews & FeaturesQuantum Dot History Projectquantum dot nanomaterialsquantum dotssemiconductors

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