Nanotechnology and its applications
Applications of nanotechnology [will be downloadable for free when viewer count reaches 5000 🙂 ] and as i promised before your now free to download it ! ! ! !From:cosmicbluetomViews:1 0ratingsTime:05:30More inScience Technology
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ART BELL CLASSIC SHOW - Michio Kaku - Future Technology Parallel Worlds
ART BELL CLASSIC SHOW - Michio Kaku - Future Technology Parallel Worlds 11-30-2008 WATCH THE LATEST VIDEO THAT CAME OUT TODAY HERE http://www.youtube.com http://www.jetstreamnews.com If You Use Twitter heres the Twitter address or just click the twitter link on the right of the channel page twitter.com Date: 11-30-08 Host: Art Bell Guests: Michio Kaku Art Bell returned for an in-depth conversation with scientist and author Michio Kaku, covering such topics as atomic weapons, the environment, genetic experimentation, future technology, parallel worlds, and cosmology. We #39;ve already passed one point of no return-- the melting of the North Pole; this will change the way our descendants experience the planet, Kaku declared. The polar melting will cause more release of methane, possibly setting up a "positive feedback loop" that will further warm up tundras, he explained. The genome of Neanderthals has been mostly mapped out, and an egg created from their DNA could potentially be gestated in a chimpanzee, in order to recreate a Neanderthal, Kaku noted, adding that no laws are in place yet to guide this kind of mind-boggling experimentation. On the technology front, he pointed out that by 2020 when Moore #39;s Law of computing power has reached its peak, the subsequent stagnation could lead to an economic depression. However, if quantum computing is successfully developed, it could offer a leap forward in sophistication and ability. Nanotechnology, he said, holds out promise to revolutionize ...From:zigdogshowViews:1 1ratingsTime:02:36:48More inEducation
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Chemtrails-nanoparticles, Brain Chips, programmed with frequencies, nano-tech in needles.
Be prepared to be shocked...some scientists researching Morgellons Disease, have noted that the unusual wire filaments growing from the crystals formed in the lesions are very difficult to destroy and identify. There have been suggestions that the chemtrails have nano-particles in the spray we eventually breath. Nanotechnology particles can have convergent qualities, meaning the nano particles can be attracted to each other and combine to form larger units inside us. Miniscule machines that can pass through cell walls. Nano particles can be introduced via needles or even our food supply. They are conducting experiments in a Kentucky mental hospital with implants on patients without the patients knowledge. They are spraying the worlds population in a massive clandestine program but it is officially denied. The people of the world are VICTIMS of a mass DECEPTION and MANIPULATION......research and communicate...find awareness groups to join and find solidarity and find ways to combat this INSANE covert plan....all linked to the auspicious plan of the United Nations Agenda 21, the ruling global elites road-map for the 21st Century. FIND OUT all you can about UN agenda 21 and what we all can do about this......PEACE 4 ALLFrom:MrFijitime1Views:61 8ratingsTime:09:07More inNews Politics
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Chemtrails-nanoparticles, Brain Chips, programmed with frequencies, nano-tech in needles. - Video
Chem Expo 2012: Nano Fashion Show
To celebrate the 25th annual National Chemistry Week students, faculty and staff from the WM Keck Science Department of Claremont McKenna-Pitzer-Scripps Colleges contributed to provide a hands-on demonstration table and a stage presentation incorporating this year #39;s theme "Nanotechnology: the Smallest BIG Idea in Science" at the Chem Expo an event hosted by the American Chemical Society San Diego Section.From:Kayla A. KaiserViews:2 0ratingsTime:13:52More inScience Technology
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Hive45 Singularity Podcast #24 3D Printing to Nanotechnology 13541899
How to, explanation and interesting videos. If you like this video, please click the Like or Share button. Muchas Gracias!! Attribution-ShareAlike 3.0 Unported (CC BY-SA 3.0) creativecommons.org You are free: to share -- to copy, distribute and transmit the work to remix -- to adapt the work Under the following conditions: attribution -- You must attribute the work in the manner specified by the author or licensor (but not in any way that suggests that they endorse you or your use of the work). share alike -- If you alter, transform, or build upon this work, you may distribute the resulting work only under the same or similar license to this one. Source: 1. Use the reference number at the very end of the title of this video(normally 7-8 characters). 2. Then to create the URL, use the number with: vimeo.com/ - ie. vimeo.com/number Support the video sharing community.From:gagewsViews:1 0ratingsTime:24:55More inHowto Style
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Hive45 Singularity Podcast #24 3D Printing to Nanotechnology 13541899 - Video
Drug, Gene DNA Delivery - Dendrimers - Creepy
Dendrimers are branching objects which encapsulate metals on a nano scale and are used for gene and drug delivery. Are they implanting antennas in us. They are often called DEMNs. (Dendrimer encapsulated metals Nanotechnology) Thanks for watching and watch out! :)From:ortegablueViews:4 0ratingsTime:15:02More inEducation
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Scary! IBM Just Got Patent (July 2012) for DENDRIMERS Drug Gene Delivery
DEMN Dendrimer Encapsulated Metal Nanotechnology...Dendrimers are put inside people and are explained as therapeutic agents, targeting agents, imaging agents. By transfection they can introduce foreign DNA, genes and drugs and God only KNOWS what they are for...probably to link up with one big giant computer...do you really trust IBM for your health??? Thanks for watching...keep your soul safe because it is at riskWatch "One Mainframe to Control Them All" Nothing to fear...the Spirit has told us... Be safe Everyone! 🙂 WATCH ASAP: http://www.youtube.com IBM Patent: http://www.google.comFrom:ortegablueViews:11 1ratingsTime:10:07More inEducation
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Ross Nanotechnology #39;s NeverWet superhydrophobic spray-on coating
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Ross Nanotechnology's NeverWet superhydrophobic spray-on coating - Video
Veritas trade; Rod Product Review by Abu Garcia
Veritas trade; rods provide extreme lightweight design and focus on the balance and compression strength anglers must have. The first time you hold the Veritas in your hand, you will be shocked how light it feels. Its balanced, lightweight design incorporates NanoTechnology trade; into the rod construction for added strength. Nano Technology provides 2.5 times the impact resistance of standard graphite rods through the manipulation of graphite on an atomic level. This prevents microscopic nicks and dings that cause other rods to snap. Now you can count on your rod to stay intact when that all important fish is on the line. The 30 Ton rating indicates a superior grade of graphite. The result is a lighter rod with increased sensitivity. The higher the tonnage, the stiffer the fibers used in the construction of the rod. Stiffer fibers more efficiently transmit vibrations to your hand so you can feel more strikes. To find this rod visit http://www.abugarcia.comFrom:AbuGarciaTVViews:12535 4ratingsTime:01:23More inSports
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Regional industry leaders and faculty of Louisiana Tech University will participate in a program focusing on the development of nanotechnology in Louisiana.
The program is planned Nov. 9 at the Louisiana Tech Shreveport Center, the News-Star reports (http://tnsne.ws/WIBmUl).
The one-day conference will include discussions and presentations on topics such recent developments in the field of nanotechnology, how Louisiana is leveraging the nanotechnology expertise and innovations, how small and large companies are making use of nanotechnology to improve products and how nanotechnology is impacting the fields of healthcare, construction, defense and energy.
The morning session will feature Quentin Messer, Louisiana Economic Development; Don Coonrod, Cameron Corp.; Chris Kevil, LSU Health Sciences Center-Shreveport; Patrick Pietrasz, Ford Motor Co.; Heath Berry, Radiance Technologies, Joel Martin, American Strategic Initiatives, Chester Wilson, Jupiter Fuels; and Vijay John, NanoFex, LLC.
The afternoon spotlights Tech faculty and researchers who will describe research and development involving nanotechnology in various industries.
Registration information is available online at http://www.latech.edu/coes/nanotech.
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Information from: The News-Star, http://www.thenewsstar.com
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A recent study out of Rice University ("NASA's Relationship with Nanotechnology: Past, Present and Future Challenges"; pdf) points out that NASA is the only U.S. federal agency to scale back investment in this area [nanotechnology].
The numbers in the report, produced by the James A. Baker III Institute for Public Policy at Rice, are alarming: NASA reduced annual nanotechnology R&D expenditures from $47 million to $20 million. And the Ames Research Center in California, which had set up its Center for Nanotechnology five years before the National Nanotechnology Initiative (NNI) was even established, had its staff reduced from 60 researchers with an $18 million budget down to 10 researchers and a $2 million budget.
The Rice report points to two events leading to this decline in NASAs nanotechnology funding. In 2003, the space shuttle Columbia accident put NASAs program under scrutiny, leading to a National Academies review of its program. Then in 2004, President George W. Bush presented his Vision for Space Exploration, which, while consisting of some lofty goals such as a manned mission to the planet Mars, actually cut NASA budgets in technology R&D.
Not all the news about NASAs nanotechnology budget is quite as dire. According to the report, the NNI reports a 29-percent increase in NASA nanotechnology-specific R&D in 2012from $17 million in 2011 to $23 million in 2012.
This latest upswing is good news, but have the previous eight years in cuts to nanotechnology research really been that detrimental to NASAs space exploration? Its not really clear whether there has been a negative impact on NASA.
NASAs total research appropriations in the years between 2003 and 2010 decreased more than 75 percent, from $6.62 billion to $1.55 billion. So if theres been a perceivedor realdecline in NASAs space exploration it may have just as easily come from the cuts throughout its entire technology R&D budget.
Also, even as NASA's funding declined in those eight years, the U.S. governments overall funding of nanotechnology research nearly doubled. NASAs interests in nanotechnology are somewhat removed from the areas of energy, medicine and materials that have been the focus of the government's nanotechnology funding strategies.
And although NASA has not been high on the U.S. governments list of recipients for nanotechnology funding, nanotechnology has continued to find its way into NASA programs. Nanomaterials developed by Lockheed Martin and Nanocomp Inc. were integrated into the Juno spacecraft destined for Jupiter. Is it necessary for NASA to develop the nanotechnology in order for it to improve NASA spacecraft?
While the numbers may be somewhat alarming, the issue with NASAs decline as a leader in U.S. nanotechnology research has really just been a reallocation of funding to different agencies and a move towards outsourcing some of the nanomaterial development that had previously been done at NASA labs. It might be even a good thing not only for other technologies such as solar energy and drug delivery, but also for NASA itself by focusing resources in other areas to advance its space program.
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Nanotechnology has always been burdened with a bit of an identity crisis. Scientists, pundits and everyone in between are constantlyoffering up definitions for the term. This blur of definitions often leads to confusion, and worse inflating peoples expectations of what nanotechnology can deliver.
One possible example of this disconnect between nanotechnology and its expectations is the recent bankruptcy of A123 Systems. One cant help but think that the stalwart support the company received over the years from investorsraising more than $1 billion from private investors, despite never turning a profitwas in part due to a blind trust that the magic of nanotechnology would somehow save the day.
How is it that nanotechnology has been transformed into this seemingly magic vehicle for technological innovation for everything from curing cancer to enabling electric vehicles? To understand it, we need to take a step back and move beyond mere definitions of nanotechnology and instead reach some deeper understanding of how weve become so flummoxed in defining it.
Photo: University of Nottingham
Richard Jones of Sheffield University (center) with Professor Chris Rudd of the University of Nottingham (Left) and guests
To our rescue is Professor Richard Jones, who in addition to being a noted scientist is an eloquent commentator on nanotechnology, addressing here in the pages of Spectrum the role of nanotechnology in achieving the Singularity.
In Jones' contribution to a new book: Quantum Engagements: Social Reflections of Nanoscience and Emerging Technologies in a chapter entitled What has nanotechnology taught us about contemporary technoscience? he suggests that nanotechnology has come to have its peculiar status through a combination of political and cultural forces along with only a smattering of science.
Jones examines the etymology of the term "nanotechnology," and shows how it came to prominence outside of the scientific community. And when he turns his lens on the science of nanotechnology, he finds that it is such a smorgasbord of different scientific disciplines its hard to see how any of it can really be related, never mind form the foundation of a scientific field. Here are some, if not all, the disciplines Jones explains fit under the nanotechnology umbrella:
Jones argues that nanotechnology has not done anything to bring these fields together, nor is there any indication that they are about to merge into one, broad field known as nanotechnology. However, the wide disparity between the many disciplines could explain why tensions appear between the visions of nanotechnology proposed by different high status academic champions, and disparities are apparent between these visions and the nature of actual products which are claimed to use nanotechnology.
The innovation infrastructure that has been built up around nanotechnology also has fueled some of nanotechnologys unusual characteristics. Jones carefully goes through how the funding mechanisms have changed over the last 30 years and how corporate structuresthrough the breakup of monopolies (like AT&T)have resulted in the great corporate laboratories of the post-WWII era being diminished to mere shadows of their former selves.
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30 October 2012
Researchers in Switzerland are using nanotechnology to develop a device to monitor and transmit biological signals for the treatment of brain diseases.
A team from Guardian Angels For Smarter Life (GA) based at Swiss technology institute EPFL has partnered with US charity One Mind for Research to create demonstration technology for studying brain diseases using nanoelectronic systems that harvest their own power.
The scientists believe that such a device, which would use GAs new Zero Power Biosensor, could be used to monitor a patients health status or to study ambient conditions for environmental danger, and could eventually help to perceive a patients emotional conditions.
Our platform will create the ultimate smart device that will assist us from infancy to old age, said EPFL co-project leader Prof Adrian Ionescu in a statement.
One of the key features is its zero power requirement as it will scavenge for energy. Think of it as recharging using the environment, sun or movement a technology that will benefit from bio-inspired concepts.
Energy-harvesting technology is increasingly being used to power small medical devices from body movements, ending the need for batteries in implants such as pacemakers.
The new autonomous, self-powered, plaster-sized sensors will be able to record biological and environmental signals from a patient in a non-invasive way and transmit them automatically.
By embedding an array of sensors in small, lightweight, wearable devices, they will collect large amounts of data that could help drive advances in brain disease treatment based on very personalised diagnoses.
Magali Haas, chief science and technology officer for One Mind, said: The promise of individualised medicine for devastating brain diseases will be hastened through this unique interdisciplinary partnership.
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DUBLIN--(BUSINESS WIRE)--
Research and Markets (http://www.researchandmarkets.com/research/fsl9jx/nanotechnology_in) has announced the addition of Woodhead Publishing Ltd's new book "Nanotechnology in the food, beverage and nutraceutical industries" to their offering.
Nanotechnology is having a significant impact on food processing. This important book summarises current research on nanotechnologies and the wide range of applications of this technology as well as issues such as safety, regulation and characterisation.
After an introductory overview, the first part of the book discusses general issues such as risk assessment, the regulatory framework, detection and characterisation of nanoparticles in food. Part two summarises the wide range of applications of nanotechnology in food processing, including nanoscale nutraceutical delivery systems, nanoemulsions and colloids, nanoscale rapid detection devices for contaminants, nanofiltration and nanocomposite packaging materials.
Key Topics Covered:
Part 1: Processes, material characterization, risks and regulation
- An overview of the development and applications of nanoscale materials in the food industry
- Potential health risks of nano Particles in foods, beverages and nutraceuticals
- Detecting and characterizing nano Particles in food, beverages and nutraceuticals
- Regulatory frameworks for food nanotechnologies
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Research and Markets: Nanotechnology in the Food, Beverage and Nutraceutical Industries
Taking a proactive approach to the possible liability implications of nanomaterials could save manufacturers major litigation trouble down the road.
All signs point toward the industrial and economic impact of nanotechnology getting exponentially bigger in the very near future -- to the tune of $3 trillion by 2015, according to some projections.
This microscopic technology, which utilizes particles and engineered structures as small as one ten-thousandth the diameter of a human hair, has already found practical application in medical technology, pharmaceuticals, and personal care products. It is poised to transform electronics and communications, manufacturing processes and tools, materials development, pollution control, batteries, and other products and industries.
But the health and environmental effects of most nanotechnologies are not well studied or understood, and a growing body of evidence suggests that some types of nanotechnology might be associated with significant adverse effects on human health and the environment.
Some in the insurance industry have already labeled nanotechnology as an emerging risk, and, to compound the uncertainty, complex concerns regarding regulatory oversight are on the rise, not to mention calls to ban nanotechnology outright.
So where does this leave manufacturers, innovators and other businesses whose industries are ready to ride the wave of nanoparticles into the future? Likely facing a host of potential lawsuits at some point for a number of potential reasons.
While no nanotechnology-specific personal injury claims have been brought against manufacturers yet, and no specific human disease or verifiable environmental mishap has been ascribed to nanomaterials, such claims are practically inevitable.
But understanding the potential risks and courtroom implications can help manufacturers and other businesses in the supply chain take proactive steps to manage and minimize their exposure to liability.
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ScienceDaily (Oct. 16, 2012) The United States may lose its leadership role in space to other countries unless it makes research and development funding and processes -- especially in nanotechnology -- a renewed and urgent priority, according to a new paper from Rice University's Baker Institute for Public Policy.
The paper, "NASA's Relationship with Nanotechnology: Past, Present and Future Challenges," investigates how NASA has both guided and defunded cutting-edge nanotechnology development since 1996 at its own research facilities and in its collaborations with university scientists and laboratories. The research was conducted by a team at Rice that included Baker Institute science and technology policy fellow Kirstin Matthews, current Rice graduate student Kenneth Evans and former graduate students Padraig Moloney and Brent Carey. The paper sheds light on a broad field that holds tremendous potential for improving space flight by reducing the weight of spacecraft and developing smaller and more accurate sensors.
This area of research, however, saw a dramatic cutback from 2004 to 2007, when NASA reduced annual nanotechnology R&D expenditures from $47 million to $20 million. NASA is the only U.S. federal agency to scale back investment in this area, the authors found, and it's part of an overall funding trend at NASA. From 2003 to 2010, while the total federal science research budget remained steady between $60 billion and $65 billion (in constant 2012 dollars), NASA's research appropriations decreased more than 75 percent, from $6.62 billion to $1.55 billion.
The authors argue that the agency should restructure, refocus and strengthen its R&D programs.
"The United States currently lacks a national space policy that ensures the continuity of research and programs that build on existing capabilities to explore space, and that has defined steps for human and robotic exploration of low-Earth orbit, the moon and Mars," Matthews said. "With Congress and the president wrestling over the budget each year, it is vital that NASA present a clear plan for science and technology R&D that is linked to all aspects of the agency. This includes connecting R&D, with nanotechnology as a lead area, to applications related to the agency's missions."
The authors said that to effectively engage in new technology R&D, NASA should strengthen its research capacity and expertise by encouraging high-risk, high-reward projects to help support and shape the future of U.S. space exploration
"Failure to make these changes, especially in a political climate of flat or reduced funding, poses substantial risk that the United States will lose its leadership role in space to other countries -- most notably China, Germany, France, Japan and Israel -- that make more effective use of their R&D investments," Matthews said.
"NASA's Relationship with Nanotechnology: Past, Present and Future Challenges" paper: http://www.bakerinstitute.org/policyreport54.
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NASA must reinvest in nanotechnology research, according to new paper
Matthews, Evans, Moloney and Carey: Nanotechnology will be critical to future missions
HOUSTON - (Oct. 16, 2012) - The United States may lose its leadership role in space to other countries unless it makes research and development funding and processes -- especially in nanotechnology -- a renewed and urgent priority, according to a new paper from Rice University's Baker Institute for Public Policy.
The paper, "NASA's Relationship with Nanotechnology: Past, Present and Future Challenges," investigates how NASA has both guided and defunded cutting-edge nanotechnology development since 1996 at its own research facilities and in its collaborations with university scientists and laboratories. The research was conducted by a team at Rice that included Baker Institute science and technology policy fellow Kirstin Matthews, current Rice graduate student Kenneth Evans and former graduate students Padraig Moloney and Brent Carey. The paper sheds light on a broad field that holds tremendous potential for improving space flight by reducing the weight of spacecraft and developing smaller and more accurate sensors.
This area of research, however, saw a dramatic cutback from 2004 to 2007, when NASA reduced annual nanotechnology R&D expenditures from $47 million to $20 million. NASA is the only U.S. federal agency to scale back investment in this area, the authors found, and it's part of an overall funding trend at NASA. From 2003 to 2010, while the total federal science research budget remained steady between $60 billion and $65 billion (in constant 2012 dollars), NASA's research appropriations decreased more than 75 percent, from $6.62 billion to $1.55 billion.
The authors argue that the agency should restructure, refocus and strengthen its R&D programs.
"The United States currently lacks a national space policy that ensures the continuity of research and programs that build on existing capabilities to explore space, and that has defined steps for human and robotic exploration of low-Earth orbit, the moon and Mars," Matthews said. "With Congress and the president wrestling over the budget each year, it is vital that NASA present a clear plan for science and technology R&D that is linked to all aspects of the agency. This includes connecting R&D, with nanotechnology as a lead area, to applications related to the agency's missions."
The authors said that to effectively engage in new technology R&D, NASA should strengthen its research capacity and expertise by encouraging high-risk, high-reward projects to help support and shape the future of U.S. space exploration
"Failure to make these changes, especially in a political climate of flat or reduced funding, poses substantial risk that the United States will lose its leadership role in space to other countries -- most notably China, Germany, France, Japan and Israel -- that make more effective use of their R&D investments," Matthews said.
-30-
For more information or to schedule an interview with Matthews, Evans, Moloney or Carey, contact Jeff Falk, associate director of national media relations at Rice, at jfalk@rice.edu or 713-348-6775.
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NASA must reinvest in nanotechnology research, according to new Rice University paper
A nanotechnology nasal spray is being developed that could transform the early detection and treatment of Alzheimer's.
The device shoots tiny magnetic particles into the nose which enter the bloodstream and are carried to the brain.
Each particle is fused to an antibody that targets and binds to rogue molecules believed to play an early role in the disease.
Magnetic resonance imaging (MRI) can detect both the particles and the molecules.
To date scientists have only tested the technique in the laboratory on human brain tissue cultures.
But if it can be shown to work in human patients it could lead to a major leap forward in managing Alzheimer's.
Scientists believe the changes that lead to Alzheimer's begin decades before the first symptoms appear.
By the time a patient is diagnosed the disease is already far advanced, and experts suspect that is the main reason why a number of promising drugs have failed in patient trials. Identifying the disease much earlier could make it far easier to treat.
Details of the new research were presented at the annual meeting of the Society for Neuroscience in New Orleans, US.
Lead scientist William Klein, from Northwestern University, Chicago, said: "We have created a probe that targets a unique marker of Alzheimer's disease. This technology is a promising tool for early AD diagnosis and for evaluating the efficacy of investigational new drugs at early stages of the disease."
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ALBANY, NY and STUTTGART, GERMANY--(Marketwire - Oct 16, 2012) - As further demonstration of Governor Andrew Cuomo's nanotechnology-driven innovation economy and its success at attracting global corporations, M+W Group (M+W) announced today that it has been selected by the College of Nanoscale Science and Engineering (CNSE) of the University at Albany, United States, associate member for facilities and infrastructure for the Global 450mm Consortium (G450C), where M+W will spearhead development of new facility and infrastructure technologies and manage building and facility suppliers selected to participate in the G450C program.
"A safe and sustainable environmental footprint is a key focus area for our facility program.The eco-friendly mandate calls for solutions that reduce energy and water consumption, and minimize generation of waste throughout the facility life cycle.Our G450C partnership allows us to align on facility standards with other industry forums and drive operational cost and duration improvements that provide a competitive advantage to the consortia members," said Rick Whitney, CEO M+W US.
"Through the vision and leadership of Governor Andrew Cuomo, as embodied by the establishment of the Global 450 Consortium at the UAlbany NanoCollege, New York is recognized globally as the leading location for nanotechnology research, development and commercialization," said CNSE Senior Vice President and CEO Alain Kaloyeros. "This effort will be further enhanced by the addition of M+W Group as an associate member of G450C for emerging building, facilities, and infrastructure technologies, bringing world-class expertise and a proven track record that will accelerate this critical technology transition to support the needs of our industrial partners."
Announced by Governor Cuomo in September 2011, the G450C's main objective is to enable the transition from existing 300mm wafer size production to the new 450mm technology.Managed by New York State through CNSE, the founding members of G450C are Intel, IBM, GLOBALFOUNDRIES, TSMC and Samsung.
M+W Group and the G450C will work with facility suppliers selected from among the top-tier providers of critical semiconductor facility components, systems, and services.These suppliers will be designated as "G450C Affiliate Participants," providing a unique opportunity to leverage the strengths of the broader membership in order to provide facility solutions that are essential to industry growth and the 450mm transformation, and lead to tens of millions in additional private investments in G450C and New York State.
The G450C headquarters and core operations are located at CNSE's Albany NanoTech Complex, within the new NanoFab Xtension (NFX) building which is currently being constructed by M+W. NFX will provide 60,000 square feet of state-of-the-art contiguous cleanroom space, with completion scheduled for the end of 2012.
About M+W Group (www.mwgroup.net): M+W Group is the leading global engineering, construction and project management company in the fields of Advanced Technology Facilities, Life Science & Chemicals, Energy & Environment Technologies and High-Tech Infrastructure. From concept development to turnkey services the company manages projects of all sizes ensuring rapid realization, high quality standards and cost-effective completion. With its competence to link process and automation technologies and complex facilities to integrated solutions M+W Group primarily focuses on leading companies in the fields of electronics, photovoltaics, life science, chemicals, energy, automotive, security and communication, as well as research institutes and universities. M+W Group is the holding company with headquarters in Stuttgart, Germany. In 2011 the company generated an order intake of $3.6 billion and revenues of $3.5 billion with more than 7,000 employees. In 2012 M+W Group celebrates its 100th anniversary.
M+W Group is owned by the Austrian Stumpf Group that is globally successful in the areas of High-Tech Engineering, Smart & Renewable Energy, Real Estate and Technology Investments.
About CNSE. The UAlbany CNSE is the first college in the world dedicated to education, research, development and deployment in the emerging disciplines of nanoscience, nanoengineering, nanobioscience and nanoeconomics. With more than $14 billion in high-tech investments, CNSE represents the world's most advanced university-driven research enterprise, offering students a one-of-a-kind academic experience and providing over 300 corporate partners with access to an unmatched ecosystem for leading-edge R&D and commercialization of nanoelectronics and nanotechnology innovations. CNSE's footprint spans upstate New York, including its Albany NanoTech Complex, an 800,000-square-foot megaplex with the only fully-integrated, 300mm wafer, computer chip pilot prototyping and demonstration line within 85,000 square feet of Class 1 capable cleanrooms. More than 2,700 scientists, researchers, engineers, students and faculty work here, from companies including IBM, Intel, GlobalFoundries, SEMATECH, Samsung, TSMC, Toshiba, Applied Materials, Tokyo Electron, ASML and Novellus Systems. An expansion now underway, part of which will house the world's first Global 450mm Consortium, will add nearly 500,000 square feet of next-generation infrastructure, an additional 50,000 square feet of Class 1 capable cleanrooms, and more than 1,000 scientists, researchers and engineers from CNSE and global corporations. In addition, CNSE's Solar Energy Development Center in Halfmoon provides a prototyping and demonstration line for next-generation CIGS thin-film solar cells, supporting its leadership of the U.S. Photovoltaic Manufacturing Consortium (PVMC).CNSE's Smart Systems Technology and Commercialization Center of Excellence (STC) in Rochester offers state-of-the-art capabilities for MEMS fabrication and packaging. CNSE also co-founded and manages operations at the Computer Chip Commercialization Center at SUNYIT in Utica and is a co-founder of the Nanotechnology Innovation and Commercialization Excelerator in Syracuse. For information, visit http://www.cnse.albany.edu.
Originally posted here:
David Johnson, a chemistry professor and nanotechnology expert with the Center for Sustainable Materials Chemistry, displays a mobile communications device that has more information stored on it than some computers on college campuses in the 1980s. With Johnson is Andy Bedingfield, the centers director of outreach and education. BILL RAUTENSTRAUCH - The Observer
Professor visits region in effort to help Ore. companies create better products for digital marketplace
Struggling to explain the science of nanotechnology for a completely science-ignorant newspaper reporter last week, David Johnson held up a mobile communications device that fit neatly in the palm of his hand.
Theres more information stored on this than there was in the huge computers you found on college campuses in the 1980s, Johnson said. Nanotechnology is all about doing more with less.
Then he gave another example.
Think about what TVs were like 30 or 40 years ago. It used to take three people just to lift one, he said.
Johnson, a lead chemistry professor at the Corvallis-based Center for Sustainable Materials Chemistry, spent last week on the road, staging a series of Science Pubs in Eastern Oregon communities including La Grande.
He was spreading the word about the centers research and its efforts to help Oregon companies especially start-up companies make better products for todays digital marketplace.
Electronic circuits are built on a nano-scale, so those products are smaller and lighter than anything people might have imagined decades ago. Thats good for businesses, and good for consumers.
But according to Johnson, its only one part of nanotechnologys benefit.
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