Location: California, United States
Abstract:
The ability to pattern nanostructures has important
applications in medical diagnosis,(1,
2) sensing,
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Location: Berkeley, United States
Much of our knowledge about molecular structure and reactivity is based on
interpreting how molecules interact with light. In particular, time-resolved
pump-probe studies where a first “pump” laser pulse initiates a dynamical
event,...
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Location: Cambridge, United States
MIT physicists have discovered that several high-temperature superconductors
display patchwork quilt-like variations at the atomic scale, a surprising
finding that could help scientists understand a new class of unconventional
materials....
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Location: Cambridge, United States
Folding paper into shapes such as a crane or a butterfly is challenging
enough for most people. Now imagine trying to fold something that's about a
hundred times thinner than a human hair and then putting it to use as an
electronic device....
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Location: Cambridge, United States
For the first time, MIT researchers have shown they can genetically engineer
viruses to build both the positively and negatively charged ends of a
lithium-ion battery.
The new virus-produced batteries have the same energy capacity and...
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Location: California , United States
Roughly the size of a matchstick, a slender titanium tube could become a
pint-sized weapon against chronic hepatitis C and a host of other debilitating
diseases.
Three UCSF/UC Berkeley doctoral students are designing a tiny implantable...
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Location: Cambridge, United States
MIT Professor of Chemical Engineering Gregory Rutledge keeps a small piece of
fabric that at first glance resembles a Kleenex. This tissue-like material,
softer than silk, is composed of fibers that are a thousand times thinner than a
human...
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Location: Cambridge, United States
Ever since the 1940s, chrome has been used to add a protective coating and
shiny luster to a wide range of metal products, from bathroom fixtures to car
bumpers.
Chrome adds beauty and durability, but those features come at a heavy...
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Location: California, United States
Composite materials such as fiberglass, which take on a mix of properties of their constituent compounds, have been around for decades. Now, an MIT materials scientist is taking composites to the nanoscale, where entirely new properties, not found...
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Location: Cambridge, United States
MIT civil engineers have for the first time identified what causes the most frequently used building material on earth -- concrete -- to gradually deform, decreasing its durability and shortening the lifespan of infrastructures such as bridges and...
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Location: Yale University, United States
Without better techniques for manufacturing nanoscale devices, many will remain in the lab. The chip industry also needs better nanoscale manufacturing techniques to create ever denser data storage and ever faster microprocessors. A technique...
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Location: Manchester, United Kingdom
Graphene, a single layer of carbon atoms arranged in a honeycomb-like structure,
has captured worldwide interest because of its attractive electronic properties. Now, by adding hydrogen to graphene, researchers at the University of...
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Location: Harvard, United States
From the structure of DNA to nautical rope to distant spiral galaxies, helical forms are as abundant as they are useful in nature and manufacturing alike. Researchers at the Harvard School of Engineering and Applied Sciences (SEAS) have discovered...
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Location: NIST, United States
Researchers at the National Institute of Standards and Technology (NIST) have demonstrated their ability to measure relatively low levels of stress or strain in regions of a semiconductor device as small as 10 nanometers across. Their recent...
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Location: Berkeley, United States
The laws of physics dictate that traditional lenses can't focus light onto a spot narrower than half the wavelength of the light. But converting the light into waves called plasmons can get around this limitation. Plasmonic lithography, which uses...
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Location: cnrs, France
At the Institute of Molecular Chemistry and Materials of Orsay (CNRS /
Université Paris Sud 11) (1), the researchers synthesized magnetic nanoparticles
consist of a heart and crown. The growth is controllable crowns at the nanometer
scale...
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Location: Berkeley, California, United States
Researchers at the University of California, Berkeley, have created nanoscale particles that can self-assemble into various optical devices. By controlling how densely the tiny silver particles assemble themselves, the researchers can make several...
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Location: Virginia, United States
Researcher- Professor Harry Dorn
Abstract-
Virginia Tech chemistry Professor Harry Dorn has developed a
new area of fullerene chemistry that may be the backbone for...
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Location: California, United States
Researcher: Timothy Deming & Thomas G. Mason
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