It's good news again. And again. (And again.)

Scott E. Rickert is the Chief Executive Officer of Nanofilm Ltd.

Something new happened in January that got me thinking about something old.

The new? The Occupational Safety and Health Administration released a new fact sheet, titled Working Safety with Nanomaterials.

The old? Nanomaterials. How old? People have been safely putting them to work for millennia -- and nature's been at it since the beginning of time.

Let me explain. Let's start with the OSHA fact sheet. It's a simple, straightforward, common-sense tool, like the hundreds of other fact sheets OSHA offers on topics from flood clean-up to lab safety.

This one follows that longtime template, focusing on training and information, emergency planning and other sound precautions. Chances are, if you've been in the nanotech field any time at all, there's nothing unfamiliar there. There were certainly no surprises for me. I've been committed to working safely since I founded my company 26 years ago.

And that's what got me thinking. A 2-month-old safety document. A 26-year safety record. And then? It occurred to me that nanotechnology's health record can be traced back 4,500 years.

The ancient Egyptians put gold and silver utensils in their water vessels as an antibacterial. The artifacts have been found in tombs. Of course, the Egyptians didn't know nanotechnology was part of their water purification regimen. It's only now that we understand that nanoparticles of the precious metals formed naturally on the vessel walls from their macro-size components.

Of course, even the Egyptian's nanotechnology is "new and improved" when you consider that nature has been manufacturing nanomaterials since, well, the beginning of time. The ocean waves that beat rocks into sand create nanoscale versions of the elements, too. Volcanic eruptions produce nanomaterials. Butterfly wings have a water-repellant nanostructure, and gecko's feet have a sticky one.

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Nanotechnology's 4,500-Year Health Record

Agilent Vacuum Solutions for Nanotechnology at "nano tech 2013 - Tokyo - 2013.1.30"
Agilent Vacuum Solutions for SEM and TEM microscopes and Nano-Technology applications. Vacuum for Nanotechnology: Vacuum in the gun and sample chamber must be clean, particle and oil free Vibrations should be eliminated Resonances should be eliminated Magnetic stray fields from both IGP and TMPs should eliminated Electric noise from power supplies should be eliminated Pumpdown cycles as quick as possible Vacuum levels should be stable and controlled Max Uptime Quick and World Wide Service

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Agilent Vacuum Solutions for Nanotechnology at "nano tech 2013 - Tokyo - 2013.1.30" - Video

SINGAPORE, Feb. 19, 2013 /PRNewswire/ --Lockheed Martin (LMT) and Singapore's Nanyang Technological University (NTU) today announced a memorandum of understanding (MOU) to explore the science of nanotechnology, with special focus on nanocopper and related technologies for the commercial market.

Lockheed Martin and NTU will set up a joint research laboratory at NTU's Yunnan campus. The lab will allow NTU students and faculty to work directly with Lockheed Martin scientists on developing the nanocopper CuantumFuse technology platform, which can be used for a variety of high-tech applications.

Nanocopper is the main ingredient in a revolutionary electrical interconnect material, or solder. Known as the CuantumFuse solder, this material is expected to produce joints with up to 10 times the electrical and thermal conductivity compared to tin-based materials currently in use.

The collaboration was inked today by Professor Freddy Boey, NTU Provost and Dr. Kenneth Washington, Vice President of Lockheed Martin Space Systems Advanced Technology Center.

"This collaboration is a good example of how NTU can connect to global industrial partners to collectively develop innovative solutions to many global challenges faced today," said Professor Boey. "We hope that in the near future, scientists from both institutions will continue to explore other research topics of joint interest in areas such as satellite technology, interactive media and perhaps even deep sea mining."

The NTU-Lockheed Martin Joint Laboratory will have an initial fund of $10 million over the next four years, and will employ up to eight scientists working on collaborative research projects. It will provide a platform to allow the exchange of researchers and knowledge between the two institutions, as well as to produce various prototypes and to host prototype demonstrations.

"The collaboration we are beginning today is an enormous step forward in moving our revolutionary CuantumFuse technology out of the laboratory and into the marketplace. We look forward to working with our colleagues at NTU to identify specific commercial target markets and applications for both Lockheed Martin and NTU's intellectual property," said Dr. Washington. "There's so much we can learn from each other, this collaboration is hopefully just the beginning of a long and fruitful relationship between Lockheed Martin and the University."

About Lockheed MartinHeadquartered in Bethesda, Md., Lockheed Martin is a global security and aerospace company that employs about 120,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration, and sustainment of advanced technology systems, products, and services. The Corporation's net sales for 2012 were $47.2 billion.

About NTUA research-intensive public university, Nanyang Technological University (NTU) has 33,500 undergraduate and postgraduate students in the colleges of Engineering, Business, Science, and Humanities, Arts, & Social Sciences. This year NTU will enroll the first batch of students at its new medical school, the Lee Kong Chian School of Medicine, which is set up jointly with Imperial College London.

NTU is also home to four world-class autonomous institutes the National Institute of Education, S Rajaratnam School of International Studies, Earth Observatory of Singapore, and Singapore Centre on Environmental Life Sciences Engineering and various leading research centres such as the Nanyang Environment & Water Research Institute (NEWRI), Energy Research Institute @ NTU (ERI@N) and Institute on Asian Consumer Insight (ACI).

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Lockheed Martin And Nanyang Technological University To Collaborate On Nanotechnology

NANO4PREMIUM TEXTILE NANOTECHNOLOGY PRODUCTS NANO PRODUKTER SVERIGE 2012 1
http://www.nano4life.co Our company Nu; Alpha; Nu; Omicron;4-LIFE was founded in 2008 to create and supply the global market Nanotechnology products that are applied to all surfaces, our products are certificated as ECO products and we have receive the ECO PASSPORT from the HOHENSTEIN Textile Testing Institute GmbH Co . Nu; Alpha; Nu; Omicron;4-LIFE products can be used for the production of human-ecological optimized textiles accordance with the Oeko-Tex Standart 100, product classes I-IV. and provide unique properties such as bull; Waterproofing bull; Sealing bull; Anti-stick protection bull; Protection from UV radiation bull; Easy to clean surfaces bull; Antibacterial protection, etc. Our products are: bull; Food and human safe bull; Invisible to the human eye (coating thickness:50-100nm) bull; Simple application (do-it-yourself) bull; Commercial application for industrial use bull; 100% ecology Our range: bull; We have the largest range of Nanotechnology Products , 30 different products in 270 different packages from 100 ml to 1000 liters. bull; Products aimed at residential customers for residential use. bull; Products aimed at professionals such as hotels , transportation, etc. bull; Products for the industry and manufacturers. About Us: For the design and creation of our products we are working with leading Nanotechnology applications Institutes in Germany which is considered the world leader in this field. For the manufacture of our products we use very high technology named Sol-Gel based in SiO2 (silicon dioxide) nanoparticles. We provide full technical support ...

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NANO4PREMIUM TEXTILE NANOTECHNOLOGY PRODUCTS NANO PRODUKTER SVERIGE 2012 1 - Video

NANO4LIFE Nanotechnology product PREMIUMTEXTILE
http://www.nano4life.co Our company Nu; Alpha; Nu; Omicron;4-LIFE was founded in 2008 to create and supply the global market Nanotechnology products that are applied to all surfaces, our products are certificated as ECO products and we have receive the ECO PASSPORT from the HOHENSTEIN Textile Testing Institute GmbH Co . Nu; Alpha; Nu; Omicron;4-LIFE products can be used for the production of human-ecological optimized textiles accordance with the Oeko-Tex Standart 100, product classes I-IV. and provide unique properties such as bull; Waterproofing bull; Sealing bull; Anti-stick protection bull; Protection from UV radiation bull; Easy to clean surfaces bull; Antibacterial protection, etc. Our products are: bull; Food and human safe bull; Invisible to the human eye (coating thickness:50-100nm) bull; Simple application (do-it-yourself) bull; Commercial application for industrial use bull; 100% ecology Our range: bull; We have the largest range of Nanotechnology Products , 30 different products in 270 different packages from 100 ml to 1000 liters. bull; Products aimed at residential customers for residential use. bull; Products aimed at professionals such as hotels , transportation, etc. bull; Products for the industry and manufacturers. About Us: For the design and creation of our products we are working with leading Nanotechnology applications Institutes in Germany which is considered the world leader in this field. For the manufacture of our products we use very high technology named Sol-Gel based in SiO2 (silicon dioxide) nanoparticles. We provide full technical support ...

By: Andreas Dimitras

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NANO4LIFE Nanotechnology product PREMIUMTEXTILE - Video

Nanotechnology protection easy to clean Demonstration Jeans Nano4life
http://www.nano4life.co Our company Nu; Alpha; Nu; Omicron;4-LIFE was founded in 2008 to create and supply the global market Nanotechnology products that are applied to all surfaces, our products are certificated as ECO products and we have receive the ECO PASSPORT from the HOHENSTEIN Textile Testing Institute GmbH Co . Nu; Alpha; Nu; Omicron;4-LIFE products can be used for the production of human-ecological optimized textiles accordance with the Oeko-Tex Standart 100, product classes I-IV. and provide unique properties such as bull; Waterproofing bull; Sealing bull; Anti-stick protection bull; Protection from UV radiation bull; Easy to clean surfaces bull; Antibacterial protection, etc. Our products are: bull; Food and human safe bull; Invisible to the human eye (coating thickness:50-100nm) bull; Simple application (do-it-yourself) bull; Commercial application for industrial use bull; 100% ecology Our range: bull; We have the largest range of Nanotechnology Products , 30 different products in 270 different packages from 100 ml to 1000 liters. bull; Products aimed at residential customers for residential use. bull; Products aimed at professionals such as hotels , transportation, etc. bull; Products for the industry and manufacturers. About Us: For the design and creation of our products we are working with leading Nanotechnology applications Institutes in Germany which is considered the world leader in this field. For the manufacture of our products we use very high technology named Sol-Gel based in SiO2 (silicon dioxide) nanoparticles. We provide full technical support ...

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Nanotechnology protection easy to clean Demonstration Jeans Nano4life - Video

NANOTECHNOLOGY SOFFA CARPETS NANO PRODUCTS HIGH TECH PRODUCT NANO4LIFE
http://www.nano4life.co Our company Nu; Alpha; Nu; Omicron;4-LIFE was founded in 2008 to create and supply the global market Nanotechnology products that are applied to all surfaces, our products are certificated as ECO products and we have receive the ECO PASSPORT from the HOHENSTEIN Textile Testing Institute GmbH Co . Nu; Alpha; Nu; Omicron;4-LIFE products can be used for the production of human-ecological optimized textiles accordance with the Oeko-Tex Standart 100, product classes I-IV. and provide unique properties such as bull; Waterproofing bull; Sealing bull; Anti-stick protection bull; Protection from UV radiation bull; Easy to clean surfaces bull; Antibacterial protection, etc. Our products are: bull; Food and human safe bull; Invisible to the human eye (coating thickness:50-100nm) bull; Simple application (do-it-yourself) bull; Commercial application for industrial use bull; 100% ecology Our range: bull; We have the largest range of Nanotechnology Products , 30 different products in 270 different packages from 100 ml to 1000 liters. bull; Products aimed at residential customers for residential use. bull; Products aimed at professionals such as hotels , transportation, etc. bull; Products for the industry and manufacturers. About Us: For the design and creation of our products we are working with leading Nanotechnology applications Institutes in Germany which is considered the world leader in this field. For the manufacture of our products we use very high technology named Sol-Gel based in SiO2 (silicon dioxide) nanoparticles. We provide full technical support ...

By: Andreas Dimitras

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NANOTECHNOLOGY SOFFA CARPETS NANO PRODUCTS HIGH TECH PRODUCT NANO4LIFE - Video

NANOTECHNOLOGY SOFFA CARPETS NANO PRODUCTS HIGH TECH PRODUCT NANO4LIFE 1
http://www.nano4life.co Our company Nu; Alpha; Nu; Omicron;4-LIFE was founded in 2008 to create and supply the global market Nanotechnology products that are applied to all surfaces, our products are certificated as ECO products and we have receive the ECO PASSPORT from the HOHENSTEIN Textile Testing Institute GmbH Co . Nu; Alpha; Nu; Omicron;4-LIFE products can be used for the production of human-ecological optimized textiles accordance with the Oeko-Tex Standart 100, product classes I-IV. and provide unique properties such as bull; Waterproofing bull; Sealing bull; Anti-stick protection bull; Protection from UV radiation bull; Easy to clean surfaces bull; Antibacterial protection, etc. Our products are: bull; Food and human safe bull; Invisible to the human eye (coating thickness:50-100nm) bull; Simple application (do-it-yourself) bull; Commercial application for industrial use bull; 100% ecology Our range: bull; We have the largest range of Nanotechnology Products , 30 different products in 270 different packages from 100 ml to 1000 liters. bull; Products aimed at residential customers for residential use. bull; Products aimed at professionals such as hotels , transportation, etc. bull; Products for the industry and manufacturers. About Us: For the design and creation of our products we are working with leading Nanotechnology applications Institutes in Germany which is considered the world leader in this field. For the manufacture of our products we use very high technology named Sol-Gel based in SiO2 (silicon dioxide) nanoparticles. We provide full technical support ...

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NANOTECHNOLOGY SOFFA CARPETS NANO PRODUCTS HIGH TECH PRODUCT NANO4LIFE 1 - Video

Top quality protection Nanotechnology products for shoes Nano4Shoes Nano4life
http://www.nano4life.co Our company Nu; Alpha; Nu; Omicron;4-LIFE was founded in 2008 to create and supply the global market Nanotechnology products that are applied to all surfaces, our products are certificated as ECO products and we have receive the ECO PASSPORT from the HOHENSTEIN Textile Testing Institute GmbH Co . Nu; Alpha; Nu; Omicron;4-LIFE products can be used for the production of human-ecological optimized textiles accordance with the Oeko-Tex Standart 100, product classes I-IV. and provide unique properties such as bull; Waterproofing bull; Sealing bull; Anti-stick protection bull; Protection from UV radiation bull; Easy to clean surfaces bull; Antibacterial protection, etc. Our products are: bull; Food and human safe bull; Invisible to the human eye (coating thickness:50-100nm) bull; Simple application (do-it-yourself) bull; Commercial application for industrial use bull; 100% ecology Our range: bull; We have the largest range of Nanotechnology Products , 30 different products in 270 different packages from 100 ml to 1000 liters. bull; Products aimed at residential customers for residential use. bull; Products aimed at professionals such as hotels , transportation, etc. bull; Products for the industry and manufacturers. About Us: For the design and creation of our products we are working with leading Nanotechnology applications Institutes in Germany which is considered the world leader in this field. For the manufacture of our products we use very high technology named Sol-Gel based in SiO2 (silicon dioxide) nanoparticles. We provide full technical support ...

By: Andreas Dimitras

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Top quality protection Nanotechnology products for shoes Nano4Shoes Nano4life - Video

Nanotechnology: Facts and Fiction - Mary Spiro
This talk was presented by at SkeptiCamp DC on October 16, 2011.

By: SkeptiCampDC

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Nanotechnology: Facts and Fiction - Mary Spiro - Video

I ran afoul of the Foresight Institute in my very first blog post here on the Spectrum website. The fiery response that post received from one of its members really should have come as no surprise to me based on the religious-like fervor Foresight members often exercise. Nonetheless, if pressed, I might have to concede it was invigorating to be so assaulted on my very first blog post here. So when I saw that there was a new video interview with co-founder and long-time President of the Foresight Institute, Christine Peterson, it seemed like a good opportunity to dive into the fray once again.

A little background might be helpful first. After my initial post that rankled at least one its members, I had another run-in with the Foresight folks about three years ago when I wrote about a sudden flurry of interest generated around the topic of nanobots. I discussed Ray Kurzweils recent admission that his interest in the Singularity was at least partly motivated by his wish to resurrect his dead father. And I mentioned the addition of a new blogger to the Foresight blog, Nanodot.

The Nanodot blogger and Foresight President of that moment, J Storrs Hall, noticed the post and felt I needed a lesson in economics based on this comment of mine in the post:

But if I may apply some dime-store psychology to this sudden surge of interest, it might be due to things just being so terrible [a reference to the economic crisis] at the moment were in. It is far better to imagine some day in the future when we can use nanobots to bring our lost loved ones back to life, or to press the button on our home-installed nanofactory that says Ferrari.

We can dream about that or face the grim realities of the now.

I won't repeat my response to Storrs Halls economics lesson here. Suffice it to say that I believed he was minimizing the impact of the worlds worst economic crisis since the Great Depression by employing flimsy comparisons to Sci-fi doomsday scenarios. I think the last three years of suffering throughout the world supports my judgment that things were pretty terrible at that time.

While that exchange was mostly cordial--albeit challenging--the ensuing comments from other Foresight members became hostile and once again revealed how unhelpful religious-like fervor can be in discussions of technology.

In addition to those previous altercations, Peterson's video interview (which you can see below) was particularly intriguing to me because of an exchange of sorts we had over five years ago. In August 2007, I wrote an editorial for Spectrum ("Material By Design: Future Science or Science Fiction?") that spurred Peterson to remark at the time that the editorial was "so conservative in its views that it crosses over into being truly radical.

In the editorial, I suggested the timeline for realizing true material by design may be in the centurieswhich is so far away that it's a kind of shorthand for saying that it's impossible to say when it might occur. To be honest, predicting that something will take place centuries or even decades from now is basically saying that you have no idea whenor ifa certain outcome will ever take place.

I will add that If I am indeed radical in my views, then so are the two prominent nanoparticle researchers at two different major European chemical companies, along with the head of nanotechnology at a major international scientific modeling company and a professor specializing in molecular modeling, that I interviewed, which reflected their views as well as mine.

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Christine Peterson Looks into the Future of Nanotechnology

Inventors based in the United States led the world in nanotechnology patent applications and grants in 2012, according to a new study by law firm McDermott Will & Emery.

Nanotechnology involves manipulating matter that's measured at the tiny "nanometre" length level. The diameter of a human hair is between 40,000 and 60,000 nanometres, said Valerie Moore, a patent agent and one of the authors of the study.

Nanotechnology patents come into play in everything from aerospace to medicine to energy, the study noted. For example, the technology can be used to incorporate antibacterial material into wound dressings, to increase the strength of car parts while decreasing their weight, and to enhance paint colours.

US-based inventors accounted for 54 per cent of the nanotechnology patent applications and grants reviewed in the study, followed by South Korea with 7.8 per cent, Japan with 7.1 per cent, Germany with 6.2 per cent and China with 4.9 per cent.

The study also looked at the geographic location of the owner of the nanotechnology patents and proposed patents. If an inventor works in the Silicon Valley office of South Korea's Samsung Electronics Co, for instance, the US is home to the invention, but the South Korean employer might own the patent.

McDermott's intellectual property practice includes more than 200 attorneys and patent agents, and is one of the top ten law firms for nanotech patent and applications filings, according to information provided by the firm.

McDermott partner Carey Jordan noted that the percentage of patents issued to US-based entities is not quite as high as the 54 per cent of nanopatents with US-based inventors. About 45 per cent of the nanotechnology patents in the study were assigned to US-based entities.

The study examined published US patent applications, patents granted by the US Patent and Trade Office, and published international patent applications that had the term "nano" in the claims, title, or abstract. Nanopatent applications were included to best quantify innovation occurring in nanotech, the study's authors said.

The number of nanotechnology patents has grown continuously since the early 2000s, the study said. Between 2007 and 2012 the total number of US patent applications, US granted patents and published international patent applications grew from about 14,250 to almost 18,900.

The United States, the European Union, as well as Japan and South Korea, have increased funding for nanotechnology education and research since 2000, the study said.

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US inventors lead world in nanotechnology

Ever Dry Product Video Superhydrophobic and oleophobic coating Nanotechnology
Ultra-Ever Dry is a superhydrophobic (water) and oleophobic (hydrocarbons) coating that will completely repel almost any liquid. Ultra-Ever Dry uses proprietary nanotechnology to coat an object and create a barrier of air on its surface. This barrier repels water, refined oil, wet concrete, and other liquids unlike any other coating. Ultra-Ever Dry has vastly improved adhesion and abrasion resistance, compared to previous technologies, allowing it to be used in applications where greater durability is required. Anti-Wetting - The superhydrophobic coating keeps objects dry, water and many other liquids simply repel off. Anti-Corrosion -- Maximum corrosion protection since the superhydrophobic coating ensures water and moisture never actually contact the base material. Anti-Icing - The superhydrophobic properties of Ultra-Ever dry keeps coated materials completely dry, eliminating the formation of ice. Anti-Contamination -- Dust, dirt, water and other liquids that contain bacteria or radiation never actually contact the surface of the coated material so bacteria and radiation is greatly diminished or eliminated and easy to decontaminate to sterile, if needed. Self-Cleaning - The Ultra-Ever Dry repels dirty water and thick oils, and remains clean and virtually bacteria-free. When dust, dirt or other molecules accumulate on a superhyrophobic coated surface, a light spray of water or a blast of air grabs the dust and removes it. Product Life-Extending -- Many products fail ...

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Ever Dry Product Video Superhydrophobic and oleophobic coating Nanotechnology - Video

Silver Kills Germs! Nanotechnology Science - Coma Niddy University
Did you know that silver has antimicrobial abilities? The same silver that is in jewelry can kill germs, fungus and bacteria. Some scientists have developed nano-silver which is even more effective at blasting away germs. Learn all about here at Coma Niddy University! Subscribe here: goo.gl Science Raps here: goo.gl Follow Me: Tumblr: goo.gl Facebook: goo.gl Twitter: goo.gl PBS Digital Studios http://www.youtube.com Written, Performed, Filmed, Edited, Music by Mike Wilson aka Coma Niddy Sources: DragonFly TV - pbskids.org Futurity - http://www.futurity.org Phys.org -phys.org Red Orbit - http://www.redorbit.com National Poist - news.nationalpost.com All images used under the Creative Commons License: Flying through the Nanotube: commons.wikimedia.org Modern Egypt: commons.wikimedia.org World War I Tank commons.wikimedia.org Wikimedia Commons commons.wikimedia.org

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Silver Kills Germs! Nanotechnology Science - Coma Niddy University - Video

Meet the Editorial Board of Nanotechnology - Meyya Meyyappan
Electronics and Photonics Section Editor Meyya Meyyappan highlights the continued interest in graphene electronics and optoelectronics among the research community, as well as potential growing interest from industry in integrating sensors on devices such as smart phones.

By: NanotechnologyVideo

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Meet the Editorial Board of Nanotechnology - Meyya Meyyappan - Video

These Objects will be never getting wet with nanotechnology

By: Nuri Erdo #287;du

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These Objects will be never getting wet with nanotechnology - Video

ALBANY, New York, February 12, 2013 /PRNewswire/ --

NewMarket ResearchReport Added inMarketResearchReports.BizReports DatabaseIntraocular Lens (IOL): Market Shares, Strategies, and Forecasts, Worldwide, Nanotechnology, 2013 to 2018

WinterGreen Research announces that it has published a new study Intraocular Lens (IOL) Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2018. The 2013 study has 293 pages, 67 tables and figures. Worldwide markets are poised to achieve continuing growth as the aging population worldwide develops cataracts and need Intraocular Lenses (IOL). All older people develop cataracts.

To Browse Full TOC, Tables & Figures visit:http://www.marketresearchreports.biz/analysis-details/intraocular-lens-iol-market-shares-strategies-and-forecasts-worldwide-nanotechnology-2013-to-2018

Cataracts are a clouding of the eye's natural lens that impairs one's ability to see clearly. With two accommodating Intraocular Lens IOLs likely to be approved within the next 12 months, the premium market is again exciting.

Intraocular lens market driving forces include the aging of the population. With age, all people have cataracts which can be cured with IOL. There is an ever-increasing baby boom aging population. There is a growing precision of cataract surgery. Safety of cataract surgical medical devices and lenses are primary market concerns. More advanced procedures are driving an increase in cataract surgery. Lower costs per surgery are driving an increase in cataract surgery.

Related Reports

Middleware Messaging Market

Business Process Management (BPM) Market

Application Server Market

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Intraocular Lens (IOL): Market Shares, Strategies, and Forecasts, Worldwide, Nanotechnology, 2013 to 2018 ...

As companies use nanotechnology to develop products like self-cleaning windows and transparent sunscreens, how will the insurance industry underwrite these risks? Christoph Meili, senior lecturer at the University of St.Gallen explains.

By Christoph Meili

Nanomaterials are commonly used in many industrial and consumer products, and while they can help create innovative products, they also pose substantial risks to human health and the environment. Self-cleaning windows, scratch-resistant colors and lacquers, transparent sunscreens, antimicrobial plastering as well as packaging materials or textiles are examples of nano products available on the market. And that list of industrial and consumer products is growing.

In Germany for example, there are approximately 2,000 companies and research organizations related to nanotechnology. Most of them (44 percent) are small and medium-sized enterprises, 41 percent are research organizations and university labs and 15 percent are large companies. In 2011 there were 64,000 workers in the nanotechnology field.

Due to the cross-sectional character of nanotechnologies the sales volumes of nanomaterials and nanoproducts are increasing in all industries. In the color and lacquer industry for instance, it is expected that by 2020, 20 percent of the total business sales will be generated by nano-components (for example smart coatings), as the antimicrobial and scratch-resistant ingredients. The situation in other industries is similar. According to international forecasts, nanotechnologies will be a key factor in the value creation of goods, with a market value of up to $3 trillion by 2015. Their market potential in 2015 could correspond to approximately 15 percent of the industrial goods market. A large part of the global goods production, for example in the areas of health, information and communication technology, energy and environmental technology would be based on the application of nanotechnology knowledge.

Assessing the Nano Risk Profile

Nanomaterials have often been critically discussed in the past few years with regard to their potential adverse effects on human health and the environment. Even though scientific risk research on nanomaterials has been ongoing for more than 10 years, it is still premature to determine potential adverse effects on human health and the environment in the mid- and long-term perspective.

In addition to physical and chemical data, exposure data is needed to address human and eco-toxicological effects. Nanomaterials which are bound or embedded in a solid matrix pose low or even no risk, according to many experts. By contrast, unbound, powdered or airborne particles could be inhaled and enter the bloodstream through the lungs. In the bloodstream, particles can enter cells. Some nano particles have actually been found in the nucleus and interacting with cellular structures. Carbon nanotubes (CNT), which are long, fiber-shaped nano molecules have been found to cause inflammation and asbestos-cancer-like malignant tumors in mice.

Nanoparticles can also enter the body through digestion. However, there is few data on the behavior of nanomaterials in the intestinal tract that demonstrate that titaniumdioxide nanoparticles (which are commonly used in food) cause inflammatory reactions and have genotoxic effects in cells of in the intestine, according to a study by Heinrich Heine Universitt in Germany. In the environment there are persistent and bioactive nanomaterials which are critically examined. Today, no final judgment of the potential risks of specific nanomaterials in the middle or longterm perspective is possible. A "long-tail" risk potential for certain nanomaterials, however, cannot be excluded.

Potential Loss Exposure for Liability Insurances

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The Risky Future of Nanotechnology

using Nanotechnology to coat objects
Ultra-Ever Dry is a super hydrophobic (water) and oleo-phobic (hydrocarbons) coating that will completely repel almost any liquid. Ultra-Ever Dry uses proprietary nanotechnology to coat an object and create a barrier of air on its surface. This barrier repels water, refined oil, wet concrete, and other liquids unlike any other coating.

By: Hashim Shmaisani

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using Nanotechnology to coat objects - Video

Christine Peterson - Nanotechnology
Christine Peterson writes, lectures, and briefs the media on coming powerful technologies, especially nanotechnology and life extension. She is Co-Founder and Past President of Foresight Institute, the leading nanotech public interest group. Foresight educates the public, technical community, and policymakers on nanotechnology and its long-term effects. She serves on the Advisory Board of the International Council on Nanotechnology, the Editorial Advisory Board of NASA #39;s Nanotech Briefs, and the Advisory Board of Singularity Institute, and served on California #39;s Blue Ribbon Task Force on Nanotechnology. She has often directed Foresight Conferences on Molecular Nanotechnology, organized Foresight Institute Feynman Prizes, and chaired Foresight Vision Weekends. She lectures on nanotechnology to a wide variety of audiences, focusing on making this complex field understandable, and on clarifying the difference between near-term commercial advances and the "Next Industrial Revolution" arriving in the next few decades. Her work is motivated by a desire to help Earth #39;s environment and traditional human communities avoid harm and instead benefit from expected dramatic advances in technology. This goal of spreading benefits led to an interest in new varieties of intellectual property including open source software, a term she is credited with originating. Wearing her for-profit hat, she chairs the Personalized Life Extension Conference series. In 1991 she coauthored Unbounding the ...

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Christine Peterson - Nanotechnology - Video