Experts from industry, academia, and the Federal Government, as well as the general public, take part in these meetings and workshops to probe the state of the science
in nanotechnology research and to identify gaps and emerging trends in nanotechnology - related research.
Since 2001, Federal agencies and Cabinet - level departments have invested more than $ 25 billion
in nanotechnology research, development, and commercialization.
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.
Not exact matches
While working a summer
research job
in nanotechnology at the University of New Brunswick, Kumaran Thillainadarajah created a pressure - sensing material.
«
Nanotechnology has been
in the
research stage for about 20 years, and we're just now seeing it come to fruition,» says Jurron Bradley, a senior analyst at high - tech market intelligence firm Lux Research in N
research stage for about 20 years, and we're just now seeing it come to fruition,» says Jurron Bradley, a senior analyst at high - tech market intelligence firm Lux
Research in N
Research in New York.
To replicate that success,
in 2013 the state launched Nano Utica, a public - private partnership
in which six initial private manufacturers — Advanced
Nanotechnology Solutions, Sematech, Atotech, IBM, Lam
Research and Tokyo Electron — have invested $ 1.5 billion.
The food and agricultural industry are investing billions of dollars into
nanotechnology research, and currently there are several nano food products
in the market.
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.
About six leading global technology companies will invest $ 1.5 billion to create «Nano Utica,» the state's second major hub of
nanotechnology research and development,
in a partnership that will create over 1,000 new high - tech jobs on the SUNYIT campus.
College of Nanoscale Science and Engineering (CSNE)-- SUNY Polytechnic Institute, is a global education,
research, development, and technology deployment resource dedicated to preparing the next generation of scientists and researchers
in nanotechnology.
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 nanotechnolog
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 nanotechnolog
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 nanotechnolog
in nanotechnology.
The
research is important to the engineering sector for some potential applications of
nanotechnology, for example
in catalysis and aerospace, where particles of only nanometre dimensions are subjected to very high temperatures.
She joined NSF
in June 2009 as a program director for the Small Business Innovation
Research (SBIR) and Small Business Technology Transfer (STTR) programs, and also served as the cluster leader for the
Nanotechnology, Advanced Materials and Manufacturing Cluster
in SBIR / STTR programs.
The Bio21 Molecular Science and Biotechnology Institute located
in Melbourne, Australia, is a multidisciplinary facility that fuses traditional life sciences
research such as biology, chemistry, and genetics with some of the latest technologies including
nanotechnology, systems biology, and bioinformatics.
With funding from the Alberta Cancer Board, the National Science and Engineering
Research Council, the Canadian Institutes of Health Research (CIHR), the Canadian Foundation for Innovation, and the Alberta Innovation and Science Research Investment Program, the University of Alberta (UA) in Edmonton has become a major center of nanotechnology research and has fostered the spin - off and growth of a host of co
Research Council, the Canadian Institutes of Health
Research (CIHR), the Canadian Foundation for Innovation, and the Alberta Innovation and Science Research Investment Program, the University of Alberta (UA) in Edmonton has become a major center of nanotechnology research and has fostered the spin - off and growth of a host of co
Research (CIHR), the Canadian Foundation for Innovation, and the Alberta Innovation and Science
Research Investment Program, the University of Alberta (UA) in Edmonton has become a major center of nanotechnology research and has fostered the spin - off and growth of a host of co
Research Investment Program, the University of Alberta (UA)
in Edmonton has become a major center of
nanotechnology research and has fostered the spin - off and growth of a host of co
research and has fostered the spin - off and growth of a host of companies.
Their
research, published online Sunday
in Nature
Nanotechnology, involved the use of cobalt oxide nanoparticles to split water into hydrogen and oxygen.
Peng Yin, a systems biologist at Harvard University, who was not involved
in the new
research, says he is impressed by the work and calls it «an important advance for molecular programming, dynamic DNA
nanotechnology and
in vitro synthetic biology.»
Toru Maekawa, the director of the Bi-Nano Electronics
Research Center at Toyo University, notes that his organization, which was established in 1996, has received MEXT funding, but the strongest government support is still in traditional research areas and not frontier science like biosystems nanotec
Research Center at Toyo University, notes that his organization, which was established
in 1996, has received MEXT funding, but the strongest government support is still
in traditional
research areas and not frontier science like biosystems nanotec
research areas and not frontier science like biosystems
nanotechnology.
Taiwan is
in a current state of enhancing its abilities to contribute to biosystems
nanotechnology, says Tao - Shih Hsieh, a distinguished
research fellow and director of the Institute of Cellular and Organismic Biology at Academia Sinica
in Taipei.
The first Inter-American Workshop on the Use of Synchrotron Radiation for
Research: Symposium on
Nanotechnologies was hosted by LNLS
in February 2001.
His projects range from exploratory
research to support and expansion of existing products, but scientists and engineers with
nanotechnology knowledge could find themselves
in any part of the firm, including product development and manufacturing.
The seven centers are
in the areas of big data, marine renewable energy,
nanotechnology, functional foods, photonics, drug processes, and perinatal translational
research.
«A lot of things are happening at a very fast pace,» says Jackie Ying, who was a professor for 11 years at MIT
in Cambridge, Massachusetts, before moving to Singapore
in 2003 as executive director of the Institute for Bioengineering and
Nanotechnology, «and Singapore has tremendous
research opportunities, especially
in the biomedical areas.»
Rick Smalley shared the Nobel Prize
in Chemistry
in 1996 for his pioneering
research in nanotechnology.
This
research «marriage» is not atypical
in biosystems
nanotechnology labs: Across academia, government, and industry, groups are almost always interdisciplinary, and new employees — whether they are postdocs or permanent staff — are hired based on how they can holistically contribute to the team, or for specific skills they possess which will complement the group's expertise.
Physicists and mechanical and chemical engineers tend to start
in research, and biologists with
nanotechnology experience often start on the preclinical side, he adds.
Singapore has shown to be a powerhouse of nanotech
research as «it is pouring lots of money into recruiting high - level scientists
in nanomedicine and
nanotechnology,» says Scott McNeil, who heads the U.S. National Cancer Institute's Nanotechnology Characterization Lab
nanotechnology,» says Scott McNeil, who heads the U.S. National Cancer Institute's
Nanotechnology Characterization Lab
Nanotechnology Characterization Laboratory (NCL).
Its science program
in India for 2006 - 2007 includes support for collaborative
research projects
in environmental science, biotechnology, and
nanotechnology.
Part of the
research program includes the applications of semisynthetic DNA - protein conjugates
in molecular
nanotechnology.
The online book chapter entitled
Research Programs on
Nanotechnology in the World, written by Mihail Roco of the National Science Foundation, contains a brief overview of who is investing in nanotechnology in seve
Nanotechnology in the World, written by Mihail Roco of the National Science Foundation, contains a brief overview of who is investing
in nanotechnology in seve
nanotechnology in several countries.
Welland is to head one of two brand - new Interdisciplinary
Research Collaborations (IRCs)
in nanotechnology, it was announced last week.
Such a tool could turbocharge biological
research, advance computer chip manufacture, revolutionize education, and usher
in an age of near - magical
nanotechnology.
«We've been looking to nature for a while to find complex molecules for use
in a number of consumer electronics applications,» says Dwight Seferos, an associate professor
in U of T's Department of Chemistry and Canada
Research Chair
in Polymer
Nanotechnology.
However, because the light coming into the sensor has to pass through several layers of metal before reaching the silicon, which is a weak light absorber, the sensor detects only about 25 percent of the light that makes up the image, says Sargent, who is also a professor of electrical and computer engineering and Canada
research chair
in Nanotechnology at the University of Toronto.
From a speech at Michigan State University (M.S.U.)
in early August: «To meet these goals, we will invest more
in the clean - technology
research and development that's occurring
in labs and
research facilities all across the country and right here at M.S.U., where you're working with farm owners to develop this state's wind potential and developing
nanotechnology that will make solar cells cheaper.»
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.
In their report that has received advance online publication in Nature Nanotechnology, a research team based at the Wellman Center for Photomedicine at Massachusetts General Hospital (MGH) describes how a nanomedicine that combines photodynamic therapy — the use of light to trigger a chemical reaction — with a molecular therapy drug targeted against common treatment resistance pathways reduced a thousand-fold the dosage of the molecular therapy drug required to suppress tumor progression and metastatic outgrowth in an animal mode
In their report that has received advance online publication
in Nature Nanotechnology, a research team based at the Wellman Center for Photomedicine at Massachusetts General Hospital (MGH) describes how a nanomedicine that combines photodynamic therapy — the use of light to trigger a chemical reaction — with a molecular therapy drug targeted against common treatment resistance pathways reduced a thousand-fold the dosage of the molecular therapy drug required to suppress tumor progression and metastatic outgrowth in an animal mode
in Nature
Nanotechnology, a
research team based at the Wellman Center for Photomedicine at Massachusetts General Hospital (MGH) describes how a nanomedicine that combines photodynamic therapy — the use of light to trigger a chemical reaction — with a molecular therapy drug targeted against common treatment resistance pathways reduced a thousand-fold the dosage of the molecular therapy drug required to suppress tumor progression and metastatic outgrowth
in an animal mode
in an animal model.
Complementing the new education are additional funds to facilitate more innovative, interdisciplinary
research projects, particularly
in new and rapidly evolving areas such as genomics, proteomics,
nanotechnology, tissue engineering, bioinformatics, and biomedical engineering.
The region has a number of government - sponsored centers of excellence, with strengths
in climate change and applied mathematics, for example, as well as cooperative
research centers with a range of foci, including biotechnology,
nanotechnology, and manufacturing technology.
«If you're serious about making sure
nanotechnology succeeds and to reap the economic benefits of its development, then you've got to invest
in health and safety
research,» Maynard adds.
Researchers of MESA +, the
research institute for
nanotechnology of the University of Twente,
in cooperation with researchers of the University of Strasbourg and Eindhoven University of Technology, are the first to successfully create perfect one - dimensional molecular wires of which the electrical conductivity can almost entirely be suppressed by a weak magnetic field at room temperature.
Basic
research in the 1920s laid the foundation for the microelectronics industry of the 1950s; physicists» discoveries
in the 1950s led to the
nanotechnology of the 1990s.
In a paper recently published in Nanotechnology, a team led by Professor My Ali El Khakani, from the Energie Matériaux Télécommunications Research Centre of INRS (INRS - EMT), has reported an original approach for the development of novel graphenated - MWCNTs with enhanced field electron emission (FEE) propertie
In a paper recently published
in Nanotechnology, a team led by Professor My Ali El Khakani, from the Energie Matériaux Télécommunications Research Centre of INRS (INRS - EMT), has reported an original approach for the development of novel graphenated - MWCNTs with enhanced field electron emission (FEE) propertie
in Nanotechnology, a team led by Professor My Ali El Khakani, from the Energie Matériaux Télécommunications
Research Centre of INRS (INRS - EMT), has reported an original approach for the development of novel graphenated - MWCNTs with enhanced field electron emission (FEE) properties.
The work was supported,
in part, by the Army
Research Office through MIT's Institute for Soldier
Nanotechnologies, the National Science Foundation, and the Department of Energy.
Our measurements were conducted
in cooperation with imec, the Leuven - based
nanotechnology research centre.
A paper on this
research has been published
in the journal Nature
Nanotechnology entitled «Photoinduced doping
in heterostructures of graphene and boron nitride.»
«Economies of scale have greatly reduced the cost of silicon manufacturing,» said Professor Ted Sargent, an expert
in emerging solar technologies and the Canada
Research Chair
in Nanotechnology.
This idyll has now been heavily shaken up by a team of physicists led by Matthias Kling, the leader of the Ultrafast Nanophotonics group
in the Department of Physics at Ludwig - Maximilians - Universitaet (LMU)
in Munich, and various
research institutions, including the Max Planck Institute of Quantum Optics (MPQ), the Institute of Photonics and
Nanotechnologies (IFN - CNR)
in Milan, the Institute of Physics at the University of Rostock, the Max Born Institute (MBI), the Center for Free - Electron Laser Science (CFEL) and the University of Hamburg.
The
research, which could re-ignite interest
in the use of DNA - based wires and devices
in the development of programmable circuits, appears
in the journal Nature
Nanotechnology under the title «Long - range charge transport
in single G - quadruplex DNA molecules.»