Over 90 NNI - funded centers and user facilities across the country provide researchers the facilities, equipment, and trained staff to
develop nanotechnology applications and associated manufacturing processes.
He has formed new partnerships with teachers in many school districts to engage with hundreds of high school students, working with teachers to
develop nanotechnology - focused lesson plans, and inspired art students and teachers to produce a nanotechnology - inspired public art display.
The state, borrowing from the model it used to
develop a nanotechnology sector in Albany, intends to use the hubs to attract medical, energy and technology companies.
Since 1988 he has lead the effort to
develop a nanotechnology -LSB-...]
The initiative borrows from the model used to
develop a nanotechnology sector in Albany.
The initiative seeks to export the business model used to
develop the nanotechnology sector in Albany, which has grown the past 12 years to include some 13,000 jobs at more than 60 companies and the development of the College of Nanoscale Science and Engineering of SUNY Albany into a world - class university program.
Also noteworthy was his refusal to criticize Alain Kaloyeros, and, in fact, Cuomo praised him for his work
developing a nanotechnology sector in Albany.
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.»
They've
developed a nanotechnology that uses inkjet printers to print multi-layer graphene circuits and also uses lasers to treat and improve the surface structure and conductivity of those circuits.
Developing nanotechnology will be a major project — just as developing nuclear weapons or lunar rockets were major projects.
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 MSU, where you're working with farm owners to develop this state's wind potential and
developing nanotechnology that will make solar cells cheaper.
Not exact matches
That issue is closer to resolution, thanks to a new generation of light, high - strength materials being
developed in the emerging
nanotechnology field.
Eight Strategic Investors Including Dell and Cisco Investments Signal Nantero's Strong Support WOBURN, MA — April 5, 2018 — Nantero Inc., the
nanotechnology company
developing nextgeneration memory using carbon nanotubes, today announced that it has expanded product development with a wide range of new and existing customers.
NANTERO SECURES MORE THAN $ 21M IN ADDITIONAL FUNDING New Round Signals Nantero's Continued Strong Customer Support WOBURN, MA — DECEMBER 8, 2016 — Nantero Inc., the
nanotechnology company
developing next - generation memory using carbon nanotubes, today announced the closing of an over $ 21 million financing round.
The laboratory will focus on
developing «new nanomaterials and
nanotechnologies for electric vehicles and energy storage that are safe, efficient and cost - effective.»
Over the last decade, New York has made a statewide commitment to
nanotechnology, investing hundreds of millions of dollars to
develop shovel - ready sites and state - of - the - art facilities.
SYRACUSE, N.Y. — COR Development, the politically connected company
developing the state's
nanotechnology hub in DeWitt and Syracuse's Inner Harbor, gave Gov. Andrew Cuomo $ 50,000 in the past six months, making them Cuomo's top donor in Central New York.
COR Development, the politically connected company
developing the state's
nanotechnology hub in DeWitt and Syracuse's Inner Harbor, gave Cuomo $ 50,000 in the past six months, making them Cuomo's top donor in Central New York.
Indium Corporation, founded in 1934,
develops and manufactures materials used in the electronics industry and is planning to invest $ 50 million over the next five years and create 105
nanotechnology ecosystem jobs.
In his first few years as a principal investigator (PI), working with stem cells and emerging
nanotechnologies to
develop nanomedicines, Ferreira was able to make do by licensing some of his technologies and securing industry funding and Portuguese government grants.
For example, researchers are
developing «smart» biomaterials such as temperature - sensing hydrogels that can respond biologically to environmental conditions by changing their biomechanical or drug - releasing properties, says Seeram Ramakrishna, a professor of mechanical engineering and director of the Center for Nanofibers &
Nanotechnology at the National University of Singapore.
Yet
nanotechnology developed for medical applications could form a model for ways of exploiting oil reserves that conventional methods can not reach.
In the biomedical arena, IMRE is capitalizing on
nanotechnology to
develop sensors that will reduce the time, sample size, and cost in health care and veterinary diagnosis as well as to facilitate mass sample screening.
Now researchers at the University of Sydney are using
nanotechnology to
develop a vest that conjures up images of Superman — the bullets bounce away harmlessly.
Thanks to the application of
nanotechnology, the team
developed a sponge with outstanding mercury adsorption properties where mercury contaminations can be removed from tap, lake and industrial wastewater to below detectable limits in less than 5 seconds (or around 5 minutes for industrial wastewater).
The nanosilver caused malformations in their eyes, swim bladders, tails, and some embryos
developed fluid around the heart that causes congestive heart failure, according to the study, which was published in August in the
nanotechnology journal Small.
«The silver that went into wastewaters when millions of people had their photographs
developed taught us that small additions of silver to the environment make a big difference,» said Dr. Samuel Luoma, a former U.S. Geological Survey senior researcher who was lead author of a report by the Project on Emerging
Nanotechnologies.
He became interested in applying his background in imaging techniques and X-ray crystallography to
develop a therapeutic solution that relied on
nanotechnology — a real - time biosensor that could continuously and non-invasively monitor someone's blood serotonin, and help them fight off blood clots even before they form.
There will be demand for really good people in
developing new instrumentation, particularly as they move toward
nanotechnology and microfluidics platforms.
The recent growth is driven, experts say, by aging populations and increased life expectancy in the
developed world; combination products that couple a medical device with a drug, the device usually acting as a drug - delivery vehicle; miniaturization (via
nanotechnology), making medical devices less invasive; and the use of molecular diagnostics to customize therapeutic regimens and to assess individual disease risk.
The goals are to apply expertise in biomedicine and
nanotechnology to
develop new methods in diagnostic imaging, and tissue - specific protective and regenerative therapies.
Developing a reliable method to synthesize and manufacture 2 - D nanosheets from other materials has been a goal of materials researchers and the
nanotechnology industry for years.
In a bid to progress beyond the shotgun approach to fighting cancer — blasting malignant cells with toxic chemicals or radiation, which kills surrounding healthy cells in the process — researchers at the Harvard - MIT Division of Health Sciences and Technology (HST) are using
nanotechnology to
develop seek - and - destroy models to zero in on and dismantle tumors without damaging nearby normal tissue.
To create products such as stem cell research devices and solar cells, Shrink
Nanotechnologies has
developed a new material that trumps the toy's abilities.
Researchers of KIT and the Center for
Nanotechnology (CeNTech), Münster, have now
developed a clinical method to reliably detect and isolate single cancer cells in blood samples in cooperation with the University Hospital of Hamburg - Eppendorf (UKE).
«We can now take linear nano - materials and direct how they are organized in two dimensions, using a DNA origami platform to create any number of shapes,» explains NYU Chemistry Professor Nadrian Seeman, the paper's senior author, who founded and
developed the field of DNA
nanotechnology, now pursued by laboratories around the globe, three decades ago.
That was completely unexpected because DNA
nanotechnology was
developed in water.»
The magnetic hyperthermia system used was
developed by co-author P. Jack Hoopes, DVM, PhD co-director of Norris Cotton Cancer Center's
Nanotechnology Working Group.
«This is a fundamentally new advance that will help us
develop new materials that can be used in everything from electronics and manufacturing to vehicles and
nanotechnologies.»
A key feature of the new solvent system is that it does not require changes to existing DNA
nanotechnology designs that were
developed for water.
Other researchers with the US - army - funded Institute for Soldier
Nanotechnologies at MIT in Cambridge, US, are in the process of
developing nanoscience - enhanced battle - suits.
Richards - Kortum's work brings together
nanotechnology, molecular imaging, and microfabrication to address global health challenges by
developing low - cost medical technologies — such as a portable microendoscope to diagnose and treat cervical cancer — for use on the ground in low - resource settings around the world.
Nanotechnology, the science of
developing materials containing very small fibers, is having a growing influence on daily life.
Several years ago, Yuste and other scientists originally pitched BRAIN to U.S. government officials as the Brain Activity Map, a 10 - year, $ 3 billion effort to
develop tools in
nanotechnology, optogenetics, and synthetic biology that could measure «every spike from every neuron» in a neural circuit.
In a paper published today in Nature
Nanotechnology, an international group of scientists announced the most significant breakthrough in a decade toward
developing DNA - based electrical circuits.
He and Gwénaël Rapenne, a chemist at the University of Toulouse - Paul Sabatier,
developed the contest after Joachim realized — following an interview with a journalist — that nanocars attracted much more public attention than did his research on fundamental aspects of
nanotechnology.
Dr. John Randall is an adjunct professor at UT Dallas and president of Zyvex Labs, a Richardson, Texas - based
nanotechnology company specializing in
developing tools and products that fabricate structures atom by atom.
By combining
nanotechnology with cheap materials such as cotton and tea bags, however, researchers have recently
developed mobile water filters that can be manufactured for less than a penny.
Scientists at the Universitat Autònoma de Barcelona (UAB) and the Catalan Institute for Nanoscience and
Nanotechnology (ICN2) have
developed a nanoencapsulation system with a liposome coating in order to increase the efficacy of bacteriophages in oral phage therapy.
The process was
developed in close cooperation with the group of Professor Martin Wegener at the Institute of Applied Physics and the Institute of
Nanotechnology of KIT.