Sentences with phrase «build nanotechnology»

A criminal complaint alleges they bribed state officials to secure the contract to build a nanotechnology hub in DeWitt.

Alain Kaloyeros, architect of the successful effort to build a nanotechnology sector in the Albany region, exhausted my list of questions in two interviews this past week about the Buffalo project, in which he plays a central role.

Aiello and Gerardi also face charges that they bribed Howe to obtain a lucrative state contract to build nanotechnology projects in Central New York.

The idea for a new $ 500 million arena, with Syracuse University as the main tenant, was a closely - held secret among Cuomo's office, Onondaga County Executive Joanie Mahoney and COR Development, the same developer who will build the nanotechnology hub.

Stirpe announced that the state would invest $ 28 million to turn a former General Electric building in Salina into a nanotechnology research and development facility.

«You locate the smartest people from a university and build a state - of - the - art infrastructure and bring in the top corporations in a specific field, in our case, nanotechnology,» said Kaloyeros.

Cuomo announced COR would also build a $ 90 million facility for Soraa, an LED lighting manufacturer at the same nanotechnology hub.

Building on the Governor's new model for publicly - led public - private partnerships, this initiative further strengthens New York's recognition as the worldwide hub for the nanotechnology industry.

As well as teaching nanotechnology, or manipulation of materials on the molecular scale, the center hosts corporations such as IBM and Intel that are researching new ways to build and design the latest computer chips.

«When he talked about nanotechnology and how the state was a leader, he mentioned Albany, Rochester, Buffalo and Syracuse and no mention of Utica what - so - ever and we have a vacant building there,» said Oneida County Executive Anthony Picente.

Alain Kaloyeros, the former head of SUNY Poly, also faces charges in connection with the 2013 contract, which gave Cor more than $ 100 million in work building state nanotechnology facilities.

We have invested tens of millions of dollars in infrastructure projects, worked with our educational partners to become leaders in nanotechnology research and development and have built a plan through Vision 2020 to prepare for this new economy.

SUNY Polytechnic said that COR Development, Cuomo's biggest contributor in Central New York, was the only company to submit a bid when the college was seeking a developer to build a site for nanotechnology projects in the Syracuse area.

The governor's announcement in Utica was the latest in state efforts to build a high - tech corridor based on nanotechnology research.

In accordance with the vision and leadership of Governor Andrew Cuomo in building New York's innovation - driven economy, the College of Nanoscale Science and Engineering (CNSE) of the State University of New York (SUNY) is a global education, research, development, and technology deployment resource dedicated to preparing the next generation of scientists and researchers in nanotechnology.

The NanoCollege already created an outpost in Syracuse in 2010 called the Nanotechnology Innovation and Commercialization Excelerator in an old GE building.

SUNY Polytechnic grew out of the nanotechnology research facility — formerly an arm of UAlbany — that focuses on how to build next - generation computer chips.

Building 3, the former electronics laboratory at Electronic Park, will be the site of a nanotechnology lab.

The idea behind the film hub is to build a stronger tie between the state's nanotechnology industry and the film industry's increasing reliance on computer graphics.

Scientific American covers this year's winners, whose work includes advances in the study of nanotechnology, the building of complex organic compounds, the development of in vitro fertilization and the understanding of «search friction» in the job market

Nanotechnologies are expected to provide dramatic advances in fields ranging from building materials to medical imaging.

William Shih at the Biomolecular Nanotechnology Group at Harvard Medical School in Boston, US, says this offers the most flexible method yet for building nanoscale structures.

Perhaps the techniques of nanotechnology would come in handy to build a better leaf, Alivisatos thought.

Gevorg Grigoryan, an assistant professor of computer science at Dartmouth College, and researchers from other institutions have built the first artificial transporter protein that carries individual atoms across membranes, opening the possibility of engineering a new class of smart molecules with applications in fields as wide ranging as nanotechnology and medicine.

Engineers are using the same technology to build crude, atomic - scale machines, inventing a new field as they go called nanotechnology.

Nanoscale construction is a field of nanotechnology that uses nanomaterials as basic building blocks to create materials with specific features.

The work built off a seminal finding by Gao and colleagues, published in 2007 in Nature Nanotechnology, showing that nanoparticles, long believed to be biologically and chemically inert, could in fact possess enzyme - like properties.

The research team from the Centre for Photonics and Photonic Materials, and the Centre for Nanoscience and Nanotechnology at the University of Bath, used a special white - light laser built in - house and directed it through several optical components to put a twist on the beam.

As reported in the December 2016 Nature Nanotechnology, the researchers built bottlebrush - shaped microparticles with silicon stems and titanium dioxide «bristle» heads.

It will help advance the development of nanoscale biosensors and ultratiny lenses that can bend light inside future optical chips as well as the fabrication of nanowires that could be used to build more advanced computer chips, researchers report in Nature Nanotechnology.

It's about a change in directions that shows you can build something real using nanotechnologies that move beyond silicon and its cousins.»

«This approach can be used to build periodic lattices from optically active particles, such as gold, silver and any other material that can be modified with DNA, with extraordinary nanoscale precision,» said Mirkin, director of Northwestern's International Institute for Nanotechnology.

Nanotechnology involves the measurement, design, building, and tailoring of nanoparticles and nanostructures to meet a variety of needs.

In addition, Moheimani, a control engineer and expert in nanotechnology, said scientists are attempting to build transistors and quantum computers from a single atom using this technology.

The Board also recommends specific investment areas, including «novel alternative energy solutions, water filters that remove pathogens at the point - of - use, new robust building materials from locally available materials, nanotechnology for health and agriculture, and biological approaches to industrial production, environmental remediation and management.»

«Whereas 10 years ago nanotechnology was thought of as making things smaller and smaller through precision engineering, now it is becoming feasible to actually build materials and devices from the bottom up,» he explains.

«Peng's team is using the DNA - brick self - assembly method to build the foundation for the new landscape of DNA nanotechnology at an impressive pace,» said Wyss Institute Founding Director Don Ingber, M.D., Ph.D. «What have been mere visions of how the DNA molecule could be used to advance everything from the semiconductor industry to biophysics are fast becoming realities.»

«Few if any research areas benefit from as much interagency coordination as environmental, health and safety issues associated with nanotechnology, and the report's primary core recommendation — to build upon the February 2008 report through development of a refined strategy for EHS research — is consistent with the approach actually being taken by NNI member agencies.»

E3S - MIT leader Professor Vladimir Bulovic led E3S on a tour of the new MIT.nano building, a 200,000 - square - foot center for nanoscience and nanotechnology.

Using nanotechnology, we can build nanofluidic devices to run these assays.

Federal agencies funding research and development activities in nanotechnology under the auspices of the National Nanotechnology Initiative (NNI), with support from the National Nanotechnology Coordination Office (NNCO), are working to highlight the accomplishments of and build community around the NNI, and to educate the general public about nnanotechnology under the auspices of the National Nanotechnology Initiative (NNI), with support from the National Nanotechnology Coordination Office (NNCO), are working to highlight the accomplishments of and build community around the NNI, and to educate the general public about nNanotechnology Initiative (NNI), with support from the National Nanotechnology Coordination Office (NNCO), are working to highlight the accomplishments of and build community around the NNI, and to educate the general public about nNanotechnology Coordination Office (NNCO), are working to highlight the accomplishments of and build community around the NNI, and to educate the general public about nanotechnologynanotechnology.

The history of structural DNA nanotechnology can, like the AFM, be traced back to the early 1980s, when Nadrian Seeman suggested that the exquisite base - pairing rules of DNA could be exploited to build artificial self - assembled structures11.

The proposal that advanced nanotechnology will include artificial molecular machine systems capable of building complex systems to atomic precision has been controversial within the scientific community.

The 2010 Kavli Prize laureates were chosen for research that has transformed our knowledge of basic units of matter, laid the foundations for the field of nanotechnology, revealed the molecular basis for the transfer of brain signals and other physiological functions, and made possible the building of telescopes that can see deeper into space and further back in time.

Technical introductions to advanced nanotechnology have emphasized theoretical studies of what our current knowledge of physics and chemistry tells us about the kinds of systems we will eventually be able to build as our ability to control the structure of matter at the nanometer scale increases.

Yes, nanotechnology is becoming ubiquitous in our daily lives and has found its way into many commercial products, for example, strong, lightweight materials for better fuel economy; targeted drug delivery for safer and more effective cancer treatments; clean, accessible drinking water around the world; superfast computers with vast amounts of storage; self - cleaning surfaces; wearable health monitors; more efficient solar panels; safer food through packaging and monitoring; regrowth of skin, bone, and nerve cells for better medical outcomes; smart windows that lighten or darken to conserve energy; and nanotechnology - enabled concrete that dries more quickly and has sensors to detect stress or corrosion at the nanoscale in roads, bridges, and buildings.

The term «nanotechnology» entered into the public vernacular quite suddenly around the turn of the century, right around the same time that, when announcing the US National Nanotechnology Initiative (NNI) in 2001 [2000; see the American Association for the Advancement of Science webpage on Historical Trends in Federal R&D, scroll down to the National Nanotechnology Initiative and click on the Jpg or Excel links], President Bill Clinton declared that it would one day build materials stronger than steel, detect cancer at its inception, and store the vast records of the Library of Congress in a device the size ofnanotechnology» entered into the public vernacular quite suddenly around the turn of the century, right around the same time that, when announcing the US National Nanotechnology Initiative (NNI) in 2001 [2000; see the American Association for the Advancement of Science webpage on Historical Trends in Federal R&D, scroll down to the National Nanotechnology Initiative and click on the Jpg or Excel links], President Bill Clinton declared that it would one day build materials stronger than steel, detect cancer at its inception, and store the vast records of the Library of Congress in a device the size ofNanotechnology Initiative (NNI) in 2001 [2000; see the American Association for the Advancement of Science webpage on Historical Trends in Federal R&D, scroll down to the National Nanotechnology Initiative and click on the Jpg or Excel links], President Bill Clinton declared that it would one day build materials stronger than steel, detect cancer at its inception, and store the vast records of the Library of Congress in a device the size ofNanotechnology Initiative and click on the Jpg or Excel links], President Bill Clinton declared that it would one day build materials stronger than steel, detect cancer at its inception, and store the vast records of the Library of Congress in a device the size of a sugar cube.

Nanotechnology, in its traditional sense, means building things from the bottom up, with atomic precision.

Managing and developing NanoMalaysia Centre and other approved Strategic Infrastructure and Facilities for the NND [National Nanotechnology Directorate Division] Pre-commercialisation and commercialisation of nanotechnology products Education and public awareness programmes Bringing in venture funds and international investments in nanotechnology Building capacity and R&D facilities Health, safety and environmental initiatives International linkages Nanotechnology Directorate Division] Pre-commercialisation and commercialisation of nanotechnology products Education and public awareness programmes Bringing in venture funds and international investments in nanotechnology Building capacity and R&D facilities Health, safety and environmental initiatives International linkages nanotechnology products Education and public awareness programmes Bringing in venture funds and international investments in nanotechnology Building capacity and R&D facilities Health, safety and environmental initiatives International linkages nanotechnology Building capacity and R&D facilities Health, safety and environmental initiatives International linkages and networking

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