EC Publishes NanoData Landscape Compilation Reports – The National Law Review

Since 1996, Carla Hutton has monitored, researched, and written about regulatory and legislative issues that may potentially affect Bergeson & Campbell, P.C. (B&C) clients. She is responsible for creating a number of monthly and quarterly regulatory updates for B&C's clients, as well as other documents, such as chemical-specific global assessments of regulatory developments and trends. She authors memoranda for B&C clients on regulatory and legislative developments, providing information that is focused, timely and applicable to client initiatives. These tasks have proven invaluable to many clients, keeping them aware and abreast of developing issues so that they can respond in kind and prepare for the future of their business.

Ms. Hutton brings a wealth of experience and judgment to her work in federal, state, and international chemical regulatory and legislative issues, including green chemistry, nanotechnology, the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA), the Toxic Substances Control Act (TSCA), Proposition 65, and the Registration, Evaluation, Authorization and Restriction of Chemicals (REACH) program.

Link:

EC Publishes NanoData Landscape Compilation Reports - The National Law Review

Under The Microscope: UTC Honors College Student Working On Nanotechnology In Japan – The Chattanoogan

Mesenchymal stem cells.Cooper Thome is working with mesenchymal stem cells.What the heck are mesenchymal stem cells?

In regular folks terms, theyre stem cells that can grow into a variety of different cells, from bone to cartilage, from muscle to fat.

They have many therapeutic applications, from the treatment of orthopedic injuries to autoimmune diseases, Mr. Thome says. Knowing how various environments and factors affect stem cells is very important if we wish to make further advancements in the types and viability of stem-cell treatments.

Mr. Thome is a UTC Honors College student whos in Japan this summer, working an internship in nanotechnology at the National Institute of Materials Science in the city of Tsukuba. A chemical engineering major in the College of Engineering and Computer Science, he has three semesters left before graduation.

Landing the Japanese internship is a major accomplishment, and Mr. Thome is one of only six students from across the U.S., from Florida to California, who were chosen. Hell be in Japan until early August.

After hes finished with the internship in Japan, hell fly into Atlanta to attend a research convocation for the various National Nanotechnology Coordinated Infrastructure REU participants from universities in the U.S, he says.

Translation: A national conference on real-world applications for nanotechnology. REU stands for Research Experiences for Undergraduates, so its geared to college students.

In addition to the terrific research hes been pursuing in that field including an important internship last summer at Georgia Techs Institute for Electronics and Nanotechnology and now this International REU in Japan hes been an active and valued member of the Brock Scholars community in the Honors College, helping to mentor new students during our orientation retreats, leading nature hikes, and more, says Dr. Gregory ODea, associate dean of the Honors College.

Back in Japan, Mr. Thome takes tiny, tiny stem cells usually about one millionth of a meter in size and grows them for tissue engineering.

The fabrication and characterization of the patterns is an important part of the project. It has been shown that the actual patterns in which you grow the cells can influence their behavior greatly, so I am going to explore some of the implications of that.

What he learned at UTC has been critical to his success outside of the school, he says, including both the Japan internship and the one at Georgia Tech.

Im really thankful for the Honors College, as well as the faculty and staff of the CECS for all the help theyve given to me up to this point, he says. Ive been lucky enough to be around people and in an environment that has pushed me to pursue some really cool (and educational and professional) experiences and positions.

As for the difference between the societies in the U.S. and Japan, Mr. Thome understates that its quite different and, especially since I dont speak Japanese, it can be confusing at times.

In general, everyone here is extremely kind and helpful, though. Theres definitely a type of social structure and formality that isnt really prevalent in the United States.

Ive met a lot of people from all over the world here, too. Tsukuba is a science city with a high population of foreign researchers, and its really interesting to talk to people about various cultural differences.

Read more:

Under The Microscope: UTC Honors College Student Working On Nanotechnology In Japan - The Chattanoogan

Nanotechnology Used in Self-Healing Batteries – ENGINEERING.com

Forget about building a better mousetrap; make a better battery and you expand the possibilities for renewable energy and cleaner vehicles. Let's see what's happening on the front lines of battery research.

Li-ion is becoming the standard technology for rechargeable batteries, but it's not devoid of shortcomings. These batteries often employ a carbon-based negative electrode. Silicon electrodes would provide a higher energy density (energy per unit of volume), making them more desirable for electric vehicles. The problem is that silicon expands and contracts with recharge cycles, eventually causing the electrode to fall apart, kind of like freezing and thawing of a road surface creates potholes.

Engineers at the University of Illinois are taking a multifaceted approach to this problem. One potential solution is a self-healing electrode that uses a conductive substance embedded into microcapsules. As the electrodes expand, the microcapsules rupture and disperse the crack-filling material.

Microcapsules rupture and fill cracks with a conductive material. (Image: University of Illinois)

The same U of I team is working on a self-healing electrode that features dynamic bonding between the silicon nanoparticles and a polymer binder. Early tests have shown that silicon electrodes employing this technology remain stable through several hundred charging cycles.

One problem that plagues Li-ion batteries is the formation of dendrites - tiny metallic structures that form on one electrode and grow toward the other, causing the battery to eventually short-circuit and possibly catch fire The dendrites easily grow in the liquid electrolyte that's prevalent in Li-ion technology, so researchers developed solid electrolytes, which are stronger. But as any programmer will tell you, when you fix one bug you often create another. As the battery goes through charging/discharging cycles, the electrodes expand and contract, which can damage the solid electrolyte and allow dendrites to form.

Scientists at MIT have examined the cause of dendrite formation and found that previous researchers were focusing on the wrong problem. They determined that it's not the weakness of the electrolyte material that allows dendrites to form, it's the uneven surface.

Smooth electrolyte surfaces can prevent dendrite formation. (Image: MIT)

Rough surfaces provide places where dendrites can infiltrate the material, eventually working their way to through to the other side. Engineers have been working on stronger electrolyte materials under the assumption that dendrites will form no matter what, so they need a tougher "wall" to block them. MIT's research shows that with ultra-smooth solid electrolyte surfaces, dendrites can be prevented rather than blocked. Now the question is whether these electrolytes can be manufactured at a reasonable cost. If so, it could open the possibilities for solid-state Li-ion batteries to be used in electric vehicles and renewable energy systems.

It's been more than two centuries since Alessandro Volta invented the "voltaic pile" - the first battery in the modern sense of the word. Since then, chemists, materials scientists, and engineers have tweaked the device's molecules in order to improve performance. Those enhancements will keep the inventor's name on our lips for many years to come, as we see more electric vehicles like the Volt and renewable energy from photovoltaics, both of which store energy in Volta's electrochemical sandwich. Saluti, Alessandro!

_______________________________________________________________

Follow this link:

Nanotechnology Used in Self-Healing Batteries - ENGINEERING.com

New device can heal with a single touch, and even repair brain injuries – USA TODAY

A new device has been developed at The Ohio State University, which turns cells into other types of cells required for treating diseased conditions. During testing, one touch completely repaired injured legs of mice over three weeks! USA TODAY

Researchers demonstrate a process known as tissue nanotransfection at The Ohio State University Wexner Medical Center. In laboratory tests, this process was able to heal the badly injured legs of mice in just three weeks with a single touch of this chip. The technology works by converting normal skin cells into vascular cells, which helped heal the wounds.(Photo: The Ohio State University Wexner Medical Center)

A new device developed at The Ohio State University can start healing organsin a "fraction of a second," researchers say.

The technology, known asTissue Nanotransfection (TNT), has the potential to save the lives of car crash victims and even deployed soldiers injured on site. It's a dime-sized silicone chip that "injects genetic code into skin cells, turning those skin cells into other types of cells required for treating diseased conditions," according to a release.

In lab tests, one touch of TNT completely repaired injured legs of miceoverthree weeks by turning skin cells into vascular cells.

And, it not only works on skin cells, it can restoreany type of tissue,Chandan Sen, director of the Center for Regenerative Medicine and Cell-Based Therapies, said. For example, the technology restored brain function in a mouse who suffered a stroke by growing brain cells on its skin.

This is a breakthrough technology, because it's the first time cells have been reprogrammed in a live body. Current cell therapy methods are high risk, like those that introduce a virus, and include multiple steps, a new study published in Nature Nanotechnology points out.There are no known side effects to TNT and treatment is less than a second, Sen said.

This technology does not require a laboratory or hospital and can actually be executed in the field," Sen said."Its less than 100 grams to carry and will have a long shelf life.

It is awaiting FDA approval, but Sen, who has been working on thisfor four years,expects TNT will be tested on humans within the year. He says he'stalking with Walter Reed National Medical Center now.

"We are proposing the use of skin as an agricultural land where you can essentially grow any cell of interest," Sen said.

Follow Ashley May on Twitter: @AshleyMayTweets

Read or Share this story: https://usat.ly/2vI58Bj

Original post:

New device can heal with a single touch, and even repair brain injuries - USA TODAY

Nanotechnology Enabled Coatings for Aircraft Market – Forecasts … – Business Wire (press release)

LONDON--(BUSINESS WIRE)--According to the latest market study released by Technavio, the global nanotechnology enabled coatings for aircraft market is expected to grow at a CAGR of more than 15% during the forecast period.

This research report titled Global Nanotechnology Enabled Coatings for Aircraft Market 2017-2021 provides an in-depth analysis of the market in terms of revenue and emerging market trends. This market research report also includes up to date analysis and forecasts for various market segments and all geographical regions.

Nanostructure technology is a wide and interdisciplinary area of R&D activities that have developed over the last two decades. It is the study and use of structures that are smaller than 100 nm in size with novel properties. This technology can transform the ways in which materials are produced, and the functionalities of the same can be retained or augmented.

This report is available at a USD 1,000 discount for a limited time only: View market snapshot before purchasing

Buy 1 Technavio report and get the second for 50% off. Buy 2 Technavio reports and get the third for free.

Technavios aerospace and defense research analysts categorize the global nanotechnology enabled coatings for aircraft market into the following segments by coating types. They are:

Looking for more information on this market? Request a free sample report

Technavios sample reports are free of charge and contain multiple sections of the report including the market size and forecast, drivers, challenges, trends, and more.

The top three revenue-generating coating types segments of the global nanotechnology enabled coatings for aircraft market is discussed below:

Global anti-corrosion, abrasion, and wear-resistant aircraft nanocoating market

The use of nanocoating is focused on addressing the challenges associated with corrosion, abrasion, and wear and tear of high-value material and components that are used in aircraft. With the help of advanced engineering technologies, it is now possible to modify composite material-based coating to include extremely durable characteristics.

According to Avimanyu Basu, a lead aerospace components research analyst from Technavio, Anti-corrosion nanocoatings can be applied to a comprehensive array of steel substrates. Such coatings can be used on various onboard systems and equipment, including valve trains, breaks, and bearings. The continuous efforts toward developing next-generation coatings have led to the emergence of advanced nanocoatings that ensure protection for defense or commercial aircraft against corrosion.

Global thermal barrier and flame retardant aircraft nanocoating market

The use of thermal spray coating is gaining traction at a significant pace with the development and use of new-generation gas turbine engines that necessitate the adoption of materials that can endure high power generation. Also, nanoscale thermal barrier coatings can be used on aircraft surfaces that are produced using metal or fiberglass.

The use of nanocoating ensures superior toughness and strain tolerance that is required for withstanding thermal strains in gas turbine engines. Nanocoatings that are produced using nanoscale zirconia oxide feature greater thermal resistance and lower thermal conductivity compared to coarse-grained coatings, adds Avimanyu.

Global anti-icing aircraft nanocoating market

Most commercial and military aircraft contain systems that help mitigate problems that may arise due to ice formation on the surface of an aircraft or within the systems and components. The formation of ice can result in increased weight, diminished function of onboard systems and equipment, and turbulence in regular maintenance activities. Such effects reflect issues concerning with human safety.

The use of nanotechnology-based anti-icing coating will gain significant acceptance from the commercial and military aviation sectors. Over the past decade, GE Global Research (an R&D division of General Electric) has been actively involved in the development of an enhanced nanotextured anti-icing surface that can be applied on the surface of aircraft.

The top vendors highlighted by Technavios research analysts in this report are:

Browse Related Reports:

About Technavio

Technavio is a leading global technology research and advisory company. Their research and analysis focuses on emerging market trends and provides actionable insights to help businesses identify market opportunities and develop effective strategies to optimize their market positions.

With over 500 specialized analysts, Technavios report library consists of more than 10,000 reports and counting, covering 800 technologies, spanning across 50 countries. Their client base consists of enterprises of all sizes, including more than 100 Fortune 500 companies. This growing client base relies on Technavios comprehensive coverage, extensive research, and actionable market insights to identify opportunities in existing and potential markets and assess their competitive positions within changing market scenarios.

If you are interested in more information, please contact our media team at media@technavio.com.

See the original post here:

Nanotechnology Enabled Coatings for Aircraft Market - Forecasts ... - Business Wire (press release)

Nanotechnology Innovations in Skincare, Batteries, Electronics, and Catalysts – Research and Markets – Business Wire (press release)

DUBLIN--(BUSINESS WIRE)--The "Nanotechnology Innovations in Skincare, Batteries, Electronics, and Catalysts" report has been added to Research and Markets' offering.

The latest issue of Medical and Diagnostic Imaging TOE profiles a motley of innovations from the medical imaging space.

These include the use of cloud platform and artificial intelligence algorithms for medical image analysis, a novel handheld endoscopic tool for the diagnosis of cancerous tissues, a compact camera for molecular imaging, and a hand-held EEG device for neural imaging.

These innovations cover a wide spread of the imaging industry, and are typically in early development stage. While their proof-of-concept has been established, their widespread clinical adoption will be realized in the next 18 to 24 months.

Medical and Diagnostic Imaging TechVision Opportunity Engine (TOE)'s mission is to analyze and report new and emerging technologies; advances in R&D, product development and regulatory matters specifically related to the areas of CT, MRI, NM, PET, Ultrasound and X-ray.

In addition, relevant developments in fusion technologies, functional imaging technology, interventional cardiology and image guided surgery and healthcare IT related areas such as PACS, medical information storage, and disaster recovery/business continuance will also be covered.

The Health and wellness cluster covers cutting-edge global developments in medical devices and imaging sectors such as biosensors, biomaterials, biomechanics, microtechnologies, nanotechnologies, assistive technologies and imaging technologies and platforms.

Key Topics Covered:

Medical Imaging - Innovation Profiles:

For more information about this report visit https://www.researchandmarkets.com/research/gzw59v/nanotechnology

Here is the original post:

Nanotechnology Innovations in Skincare, Batteries, Electronics, and Catalysts - Research and Markets - Business Wire (press release)

Israel’s vital contributions to nanotechnology – ISRAEL21c

Yeshayahu Talmon is a chemical engineer and former director of the Russell Berrie Nanotechnology Institute (RBNI) at the Technion-Israel Institute of Technology, in Haifa. A frequent spokesman for the industry, he answers even laymens questions patiently and lucidly, and offers positive news about Israel as a nucleus for nanoscience.

Some basics about nanotechnology

Nanoscience is the science of everything that happens on that very small scale. Now, technology is being developed to take that science and apply it, says Talmon.

One example of applications we are working with at the Russell Berrie Nanotech Institute is carbon nanotubes. Carbon nanotubes are only one to two nanometers thick, but the single particle is extremely strong. And in some forms, they are very good electrical conductors, and they are lightweight . . . so in principle they could be the material of the future.

However, in most cases, we cannot use them as single nanoparticles, so somehow we have to spin fibers out of them, and this is a challenge. (Sometimes, although it all works very well on a basic scientific level, when you try to make it into a process, things become more complicated.)

Another example of how the technology is applied is graphene sheets. Graphite, of course, is what you have in your pencil. However, when graphite is dispersed into single layers of carbon atoms, it has mechanical and electrical properties that can be used to make interesting coatings, like for touch screens, for instance.

All touch screens now have some kind of conductors in them, and by using graphene, you can potentially make better, cheaper, longer-lasting coatings.

In 2010, the Nobel Prize in Physics was given to Andre Geim and Konstantin Novoselov, two scientists working on graphene, so this field suddenly became even more exciting than before.

There is also a very important interface between medicine and the nanosciences, starting with intelligent, sophisticated sensors, all the way to drug delivery.

At the Technion, we try to bring people from our faculty of medicine together with people from engineering and the basic sciences, in some cases to advise graduate students jointly, and to work on a medical or biological problem where scientists and engineers can help. Collaborations among the various scientific disciplines are crucial here.

Yeshayahu Talmon. Photo by Miki Koren, courtesy Technion-Israel Institute of Technology

The Technions Role in Nanotechnology

Israel joined the nano community early on. And the Technion formed the nanotechnology center in 2005, two years before anybody else here. I played a part in its formation, but the effort was primarily led by Professor Uri Sivan of the physics department, who was the first director of the Russell Berrie Nanotechnology Institute. (I took over in 2010.)

In a way, it was a pioneering effort not only for the Technion, but for the entire country, because it formed a model on which all the other institutes were formed, not so much in the structure, but much more in the emphasis and in the way they are supported.

We have recruited many new faculty members at the RBNI; each of them is excellent. Many of them spent a good number of years in the United States or in other places, but most are originally Israeli.

There is a lot of talk about bringing back Israelis from abroad. Weve had to lure them from places like Boston University, Stanford, UCLA its competitive. And then, when theyve made the decision to come to Israel, we have to compete with the other Israeli universities: the Weizmann Institute, the Hebrew University, Tel Aviv University, and so on.

Our government is trying to reverse the brain drain that we have experienced most acutely in the sciences, of course, because these are the people who are most sought-after by institutions outside Israel.

But there is a kind of snowball effect although we scientists prefer to call it a nucleation process! Once you form a nucleus, it grows and attracts more material to form a crystal. Good researchers are attracted to a good nucleus.

Further Resources: Israel National Nanotechnology Initiative>

Tel-Aviv University Center for Nanoscience and Nanotechnology>

Weizmann Institute of Science>

Lin Arison & Diana C. Stoll are the creatorsofThe Desert and the Cities Sing: Discovering Todays Israel, a treasure box that highlights Israels creative achievement and innovation.

Continue reading here:

Israel's vital contributions to nanotechnology - ISRAEL21c

USDA Awards $4.6 Million in Nanotechnology Research Grants – The National Law Review

Since 1996, Carla Hutton has monitored, researched, and written about regulatory and legislative issues that may potentially affect Bergeson & Campbell, P.C. (B&C) clients. She is responsible for creating a number of monthly and quarterly regulatory updates for B&C's clients, as well as other documents, such as chemical-specific global assessments of regulatory developments and trends. She authors memoranda for B&C clients on regulatory and legislative developments, providing information that is focused, timely and applicable to client initiatives. These tasks have proven invaluable to many clients, keeping them aware and abreast of developing issues so that they can respond in kind and prepare for the future of their business.

Ms. Hutton brings a wealth of experience and judgment to her work in federal, state, and international chemical regulatory and legislative issues, including green chemistry, nanotechnology, the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA), the Toxic Substances Control Act (TSCA), Proposition 65, and the Registration, Evaluation, Authorization and Restriction of Chemicals (REACH) program.

View original post here:

USDA Awards $4.6 Million in Nanotechnology Research Grants - The National Law Review

RNA used to make ‘living computers’ for nanotechnology – Digital Journal

Its an example of engineers and biologists coming together to create an innovative solution to the performing of calculations. The implications are a potential game-changer for intelligent drug design and smart drug delivery. Other fields that could be affected include green energy production, low-cost diagnostic technologies and the development of futuristic nanomachines to be used in gene-editing. The basis of the new technology is the natural interactions between nucleic acid; in this case the predictable and programmable RNA-RNA interactions. RNA is ribonucleic acid, an important molecule with long chains of nucleotides. A nucleotide contains a nitrogenous base, a ribose sugar, and a phosphate. RNA is involved with the coding, decoding, regulation, and expression of genes. This builds on earlier work where DNA and RNA, the molecules of life, where demonstrated as being able to perform computer-like computations by Leonard Adleman (University of Southern California) in 1994 (Molecular Computation of Solutions To Combinatorial Problems.)

Atomic structure of the 50S Large Subunit of the Ribosome. Proteins are colored in blue and RNA in orange. RNA is central to the synthesis of proteins.

Wikipedia / Vossman

See the original post here:

RNA used to make 'living computers' for nanotechnology - Digital Journal

Medical Nanotechnology |Nanotechnology congress |Medical …

Conference Series LLC invites all the participants across the globe to attend the 15th World Medical Nanotechnology Congress, October 18-19, 2017, Osaka, Japan.Medical Nanotechnology 2017 provides a perfect symposium for scientists, engineers, directors of companies and students in the field of Nanotechnology to meet and share their knowledge. The scientific program paves a way to gather visionaries through the research talks and presentations and put forwardmanythoughtprovoking strategies. It provides a premier technical forum for reporting and learning about the latest research and development, as well as for launching new applications and technology.

Track 1- Nanomedicine:

Nano medicine is the next wave of advancements in the healthcare space. The nanotechnology revolution is now enabling novel approaches to address the major problems in modern medicine, leading to the emergence of nanomedicine as a new paradigm for diagnosis and therapy, according to experts.

Related Conferences:

7thCongress on Material Researchand technology February20-21,2017 Germany, InternationalConference on Smart Materials& Structure March 20-22,2017 USA, 9thWorldConference on Material Scienceand Engineering June 12-14,2017 Italy,Conference on Material Scienceand Engineering May 29-31,2017 Japan,Conference on Grapheneand2D materialsMarch 28-31,2017 Spain, International Conference on Advanced materialsandNanotechnologyFebruary 12-16,2017 New Zealand, International Conference onGraphene NanotechnologyAugust 14-15,2017 UK,Conference on GrapheneForum April 26-28,2017 France.American Chemical Society-Nanotechnology Safety Resources,Graphene Stakeholders Association (GSA)

NanoBusiness Alliance, Nanotechnology and Nanoscience Student Association (NANSA), Nano Science and Technology Institute (NSTI)

Track 2- Nanoelectronics and Biomedical Devices:

Nanoelectronics are so small that several hundred such devices would fit in the period at the end of this sentence. Laboratory versions made of silicon nanowires can detect disease biomarkers and even single virus cells, or record heart cells as they beat. Liebers team also has integrated nanoelectronics into living tissues in three dimensions creating a cyborg tissue. One obstacle to the practical, long-term use of these devices is that they typically fall apart within weeks or days when implanted. In the current study, the researchers set out to make them much more stable.

Related Conferences:

Conference on Plasma Chemistry2017, South Africa, 2ndAnnualConference on BiomaterialsMarch 27-28, 2017 Spain, International Conference onGraphene NanotechnologyAugust 14-15,2017 UK, InternationalConference on Functional Energy MaterialsDecember 07-09,2017 USA, International workshop onGrapheneDecember 13,2016 Spain, Conference onChemistry of Two-Dimensional Materials, August 22-26,2017 Amphi Ourisson,Conference on GrapheneForum December 04-09,2016 USA.Material Research Society,Nanotechnology Association(NIA)

American Nano Society, Russian Nanotechnology Corporation, Sri Lanka Institute of Nanotechnology.

Track 3- DNA Nanotechnology:

The ability of DNA to selfassemble into a variety of nanostructures and nanomachines is highlighted in a growing number of papers in Nature Nanotechnology. The appeal of DNA to nanoscientists is threefold: first, it is a natural nanoscale material; second, a large number of techniques for studying DNA are already available; and third, its ability to carry information can be exploited in the selfassembly process. DNA is also increasingly being used to organize other nanomaterials, and the related field of RNA nanotechnology is beginning to emerge. All this can be seen in the articles below.

Related Conferences:

8thInternationalConference On material Scienceand Engineering May 29-31, 2017 Japan, InternationalConference on Functional Energy MaterialsDecember 07-09, 2017 USA, InternationalConference on BiomaterialsMarch 27-28,2017 Spain , InternationalConference on Industrial DiamondMay 14-15,2017 Netherlands, Exhibition inGraphene and 2D materialsMarch 28-31,Spain, InternationalConference on Material Scienceand Technology December 14-15,2016 Bangkok,Conferences on MaterialsResearch August 20-25,2017 Mexico.

International Associations of Nano Technology (IANT),American Chemical Society(ACS).

Track 4- Medical Nanotechnology Devices:

The fast development of the Nanodevices is driving the world through the roadways of improvement in different sections of science and innovation. The Nano devices&Nano frameworks have brought a colossal change of mankind with its Nano way of life gadgets. The examination includes in brilliant sensors and savvy conveyance frameworks, demonstrating and reproduction alongside the organically enlivened gadgets which are expected to move at a gigantic development of 34% CAGR and the anticipated development of the Nanoswitches and Optical-biosensors is up to $58.9% billion increment before the end of 2018 by enrolling a sound CAGR of 20.7%.Around the world making the world's focus the exploration territories of Nanomaterials and Nanotechnology.

Related Conferences:

InternationalConference on Smart Materials& Structure March 20-22, 2017 USA, InternationalConference on Graphene NanotechnologyAugust 14-15, 2017 UK, 7thInternationalConference on Material Researchand technology February 20-21, 2017 Germany,Conference on GrapheneForum March 11-16, 2017 Singapore,Conference on Carbon materialsDecember 8-9, 2016 China,Conference OnNanomaterialsMarch 06-10, 2017.

American physical Society,Nanotechnology Association (NIA)NanoBusiness Alliance,Nanotechnology and Nanoscience Student Association (NANSA), Nano Science and Technology Institute (NSTI)

Track 5- Drug Delivery and Therapeutics:

Nanotechnology could be strategically implemented in new developing drug delivery systems that can expand drug markets. Such a plan would be applied to drugs selected for full-scale development based on their safety and efficacy data, but which fail to reach clinical development because of poor bio pharmacological properties. The new drug delivery methods are expected to enable pharmaceutical companies to reformulate existing drugs on the market, thereby extending the lifetime of products and enhancing the performance of drugs by increasing effectiveness, safety and patient adherence, and ultimately reducing healthcare costs.

Related Conferences

InternationalConference on Functional on Energy MaterialsDecember 07-09, 2017 USA,Conference on material Scienceand Engineering May 29-31, 2017 Japan, WorldCongress on Material Scienceand Engineering June 12-14, 2017 Italy, InternationalConference on CeramicsandComposite materials June 29-30, 2017 Spain,Conference on Grapheneand other2D materialsMay 10-11,2017 Germany,Conference on GrapheneMarch 28-31,2017 Spain,Conference on GrapheneForum April 26-28,2017 Paris.

American Association for advancement of science,ASME Nanotechnology Institute.

Track 6- Cancer Nanotechnology:

The improvement of nanomaterials and nanotechnology has acquired another time the field of Nano prescription. The use of the Nanomedicine in the diverse fields of solution are offering humankind for the leap forward in medication conveyance, some assistance with blooding cleansing, tissue designing growth furthermore related fields of drug. The business sector examination says that the Nanomedicine deals for the disease conclusion has crossed $7.1billion in 2009 and with more than 230 organizations in Nanoinformatics and 45 items worldwide of Nano bio-innovation at least $4.6 billion in innovative work is been contributed each year. More than 490 colleges of Nano solution around the globe and around 54 commercial ventures in India are doing research in medication conveyance and biomedical instrumentation. Almost $9,600 million is been supported on this task. Tissue building is the Present exploration which is concentrated by the United Kingdom.

Related Conferences

14th International Conference onNanomaterials and NanotechnologyMarch 30- 31, 2017 Madrid, Spain; 16th WorldNano ConferenceJune 5-6, 2017 Milan, Italy; 8th International Conference onNanomaterials - Research & Application, October 19-21, 2016, Brno, Czech Republic; 5th InternationalConference on Multifunctional,Hybrid and Nanomaterials, 06 - 10 March 2017,Lisbon (PT); 3rd International Conference onNanomaterials, Fundamentalsand Applications (NFA 2017), 09 - 11 October 2017, Strbske Pleso (SK); International Conference onGraphene Nanotechnology2017 August 14-15, 2017 Scotland , UK; 9thNano Congress for Next GenerationAugust 1-2, 2016 Manchester, United Kingdom; 12thNanotechnology Productsand Summit November 24-25, 2016 Melbourne, Australia

American Nano Society, International Association of Nanotechnology, Center for Biological and Environmental Nanotechnology, Rice University

Track 7- Polymer Nanotechnology:

This review will discuss polymer matrix based nanocomposites with exfoliated clay being one of the key modifications. While the reinforcement aspects of nanocomposites are the primary area of interest, a number of other properties and potential applications are important including barrier properties, flammability resistance, electrical/electronic properties, membrane properties, polymer blend compatibilization. An important consideration in this review involves the comparison of properties of nanoscale dimensions relative to larger scale dimensions.

Related Conferences

7th AnnualCongress on Materials ResearchandTechnologyFebruary 20-21, 2017 Berlin, Germany; 8thInternationalMaterials ScienceandEngineering ConferenceMay 29-31, 2017 Osaka, Japan;InternationalConference on GrapheneandSemiconductorsJuly 17-19, 2017 Chicago, IL, USA; 3rdInternationalConference on Smart Materialsand Structures, March 20-22, 2017 Orlando, FL, USA; 9th WorldCongress on Materials Scienceand Engineering June 12-14, 2017 Rome, Italy; 2nd AnnualBiomaterialsConferenceMarch 27-28, 2017 Madrid, Spain; 5thInternationalSymposium on Frontiers in Polymer ScienceMay 17-19, 2017 Seville, Spain; 3rdInternationalConference on Polymer Materials ScienceJanuary 3-5,2017, Bangkok, Thailand; 12thInternationalConference on Advanced PolymersviaMacromolecular EngineeringMay 21-25, 2017 Ghent, Belgium.

American Physical Society;Telford Polymer Association

Track 8- Nanotoxicity:

Two decades of Nanotoxicology research has shown that the interactions between nanomaterials and cells, animals, humans and the environment are remarkably complex. Researchers are still trying to understand in detail how the physical, chemical and other properties of nanomaterials influence these interactions, and thus determine the ultimate impact of nanomaterials on health and the environment. And as new nanomaterials are developed, and animal testing is reduced, computational methods are becoming increasingly important for prioritizing safety studies. There is also an on-going debate about the regulation of nanomaterials. Nature Nanotechnology has published articles on all these topics and this web focus on nanotoxicology contains links to all of them.

Related Conferences

12thNanotechnologyProducts Expo November 10-12, 2016 Melbourne, Australia: 13thInternational Conference onNanotekand Expo December 5-6, 2016 Seattle, USA: 7th WorldNanoConference June 20-21, 2017 Cape Town, South Africa: 8th WorldMedicalNanotechnologyCongress and Expo June 9-11, 2016 Dallas, USA: 9thNano Congressfor Future Generation June 27-29, 2016 Valencia, Spain: 11th InternationalConference and Expo onNanoscienceandMolecularNanotechnologySeptember 26-28, 2017 Baltimore, United States: 4th InternationalConference on Process Engineeringand Advanced Materials (ICPEAM2016), 1517 August 2016, Kuala Lumpur, Malaysia: IUMRS-ICAM 2017 InternationalConference on Advanced Materials, 25-29 October 2015, South Korea: 40th International Conference and Expo on Advanced Ceramics and Composites, 24-29 January 2016, Kenitra-Rabat, Morocco: OIC 2016 Optical Interference Coatings, 19-24 Jun 2016, Tucson, United States: ICMCTF'17 - InternationalConference On Metallurgical Coatings& Thin Films, 17-21 Jul 2017, Prague, Czech Republic. NanoFIS 2016 - Functional Integrated nanoSystems, 2729 June 2016, Graz, Austria: NANOTEXNOLOGY 2016 July 29 2016, Thessaloniki, Greece: 16th InternationalConference on Nanotechnology,22-25 August 2016, Sendai, Japan: 11th Nanotechnology Materials and Devices Conference, 9-12 October 2016, Toulouse, France: 6th InternationalConference on Manipulation, Manufacturingand Measurement on the Nanoscale, 18-22 July 2016, Chongqing, China: Nanomechanical Testing in Materials Research and Development V, 4-9 October, 2015.

American Nano Society, International Association of Nanotechnology, Center for Biological and Environmental Nanotechnology, Rice University

Track 9- Bio-Nanomaterials and Tissues Engineering:

Scaffold-based tissue engineering approaches have been under investigation for more than 30 years now and many different techniques have been developed in order to engineer various tissues of the body. Some of them have been translated from bench to bedside, yet many are still under intensive examination. Biodegradable scaffolds applied in tissue engineering aim to temporarily substitute for the extracellular matrix and its complex biological functions during the regeneration and/or remodelling period, and are subsequently degraded and replaced by new tissue.

Related conferences

9thNano Congressfor Future Generation August 01-02, 2016 Manchester, UK; 4th GlobalConference onNano EngineeringforMedicineandBiology2016February 21-24, 2016Houston, TX, United States; InternationalConference onNano materials,Nano devices, Fabricationand Characterization (ICNNFC 2016) April 1-2, 2017 Prague, Czech Republic ;BIT`s 5th Annual World Congress ofNano Science& Technology (Nano-S&T 2015) September 24-26, 2017 Xian, China ;14th InternationalConference onNanoimprintandNanoprint Technology - NNT 2015October 22-24, 2015 Napa, CA, United States ;InternationalConference on MicrosystemsandNanotechnologies(ICMN 2015) November 20-22, 2015 Guilin, Chinas; 10th IEEE international Conference on Nano/Molecular Medicine and Engineering 27-29 November 2016 TBD;6th InternationalConference on Manipulation, Manufacturingand Measurement on the Nanoscale 18-22 July 2016, Chongqing, China; InternationalConference on Manipulation, Automationand Robotics at Small ScalesParis, 18-22 July 2017 France; InternationalConference on Nano scienceand Nanotechnology.7-11 Feb 2016, Canberra, Australia; InternationalConference on Nanostructures. 07-10 Mar 2016, Tehran, Iran;Conferences on nanostructured materials.August 7 to 12, 2016, Qubec City,Canada;InternationalConference on Advanced Nano Materialsand Emerging Engineering Technologies, 31st May 2016,Singapore; The 2nd International Conference on Advanced Nano Materials and Emerging Engineering Technologies. 30th August 2016,Singapore; 4th InternationalConference on Bioinformatics, Biotechnologyand Nano-

NASA-JSC Area NanoTechnology Study Group, Society for the Advancement of Material and Process Engineering, NanoScience and Technology Institute

Track 10- Environmental Safety:

Health and Environmental Safety of Nanomaterials addresses considerations regarding the impact of nanomaterials on the atmosphere and human health, and examines the security of specific nanomaterials. Understanding the distinctive chemical and physical properties of nanostructures has diode to several developments within the applications of nanocomposite materials. Whereas these materials have applications during a Brobdingnagian vary of areas, their potential for toxicity should be completely understood.

Related Conferences:

9thNano Congressfor Future Generation June 27-29, 2016 Valencia, Spain: 11th InternationalConference and Expo onNanoscienceandMolecularNanotechnologySeptember 26-28, 2016 London, UK: 12thNanotechnologyProducts Expo November 10-12, 2016 Melbourne, Australia: 13thInternational Conference onNanotekand Expo December 5-6, 2016 Seattle, USA: InternationalConference on Nanoscienceand Nanotechnology February 711, 2016 Canberra, Australia: The Fundamental Science of Nanotechnology 11 January 20 March 2016, Oxford, United Kingdom: BioNanoMed 2016 - Nanotechnology enables Personalized Medicine, 68 April 2016, Krems, Austria: IUMRS-ICAM 2015 InternationalConference on Advanced Materials,25-29 October 2015, South Korea: 40th International Conference and Expo on Advanced Ceramics and Composites, 24-29 January 2016, Florida, United States: ISyDMA'2016 First International Symposium on Dielectric Materials and Applications, 04-06 May 2016, Kenitra-Rabat, Morocco: OIC 2016 Optical Interference Coatings, 19-24 Jun 2016, Tucson, United States: ICMCTF'17 - InternationalConference On Metallurgical Coatings& Thin Films, 17-21 Jul 2017, Prague, Czech Republic: NanoFIS 2016 - Functional Integrated nanoSystems, 2729 June 2016, Graz, Austria: NANOTEXNOLOGY 2016 July 29 2016, Thessaloniki, Greece: 16th InternationalConference on Nanotechnology,22-25 August 2016, Sendai, Japan: 11th Nanotechnology Materials and Devices Conference, 9-12 October 2016, Toulouse, France: 6th InternationalConference on Manipulation, Manufacturingand Measurement on the Nanoscale, 18-22 July 2016, Czech Republic: ASME 4th GlobalConference on NanoEngineering for Medicineand Biology 2016, February 21-24, 2016 Houston, Texas, USA: 4th Nanoscience & Nanotechnology Conference (ICNT2016), 28-29 January 2016.

Intelligent Testing Strategies for Engineered Nanomaterials (ITS-NANO), Bangladesh Nanotechnology Society (BNS), Nano Science and Technology Consortium (NSTC)

Track 11- Recent developments in Nanotechnology and Nanoscience:

Nanotechnology will be utilized for Detection, Diagnostics, Therapeutics and Monitoring. Themes like Nanotechnology based Imaging Technologies and Lab-on-a-Chip Point of Care Diagnostics, Advanced Nano-Bio-Sensor Technologies, Implantable Nano sensors, Nano Arrays for Advanced Diagnostics and Therapy, Invasive Therapy Technologies and Cellular based Therapy might be talked about.

Related conferences:

6th Global ExpertsConference on Meeting & Expo onNano materialsandNanotechnologyApril 21-23, 2016 Dubai, UAE ;,InternationalConference onNanotechnologyModellingandSimulation(ICNMS 2016) April 1-2, 2016 Prague, Czech Republic ;InternationalConference onNanotechnologyand Environmental Issues (ICNEI 2016) April 1-2, 2016 Prague, Czech Republic;2nd World Congress and Expo onNanotechnologyand Materials Science 2016April 4-6, 2016 Dubai, United Arab Emirates ;14th InternationalConference onNanoimprintandNanoprint Technology - NNT 2015October 22-24, 2015 Napa, CA, United States ;1st International Conference on Research and Development in Imaging,Nanotechnology, Industrial Design and Robotics RDINIDR 2015 )Cordoba, Argentina November 20-21, 2015; 4th InternationalConference on Bioinformatics, Biotechnologyand Nano-Technology 25thAugust 2016,Malaysia Kuala Lumpur; 18th InternationalConference on Nanoscienceand Nanotechnology March 14 - 15, 2016 Paris France; Hernstein, Austria; WinterConference on Plasma Spectrochemistry.1016 January 2016Tucson, United States;Conference on Advances in Refractoryand Reactive Metals and Alloys .2729 January 2016,Mumbai, India; Sixth InternationalConference on Metals in Genetics, Chemical Biologyand Therapeutics .1720 February 2016,Bangalore, India; Functional Nanomaterials in Industrial Applications 2931 March 2016,Preston, UK; SPIE Energy Future Conference and Exhibitions 2016.46 July 2016,UNSW, Australia; InternationalConference on Experimental Mechanics37 July 2016.

Society for the Advancement of Material and Process Engineering, The Institute of NanoTechnology, Nano Business Alliance

Track 12- NanoBio Technology

NanoBio Technologyis the system of engineering principles with relation to molecular functions and nano mechanisms.Medical Nanotechnologyis the application of technical aspects to biological process that includesNano medicines, Tissue GrowingNanostructures, Cell interactions with nano particles etc. Revolutionary opportunities and future scope of nanotechnology is gaining its utmost importance in nano life sciences.

Related Conferences ofNano-bio technology:

InternationalConference onMedical ImagingandDiagnosisMay 09-10, 2016, USA; 6th AnnualConference on Clinical NephrologyMay 9-11, 2016 San Francisco, USA; InternationalConference onMedical EthicsandLegal MedicineJune 09-11, 2016, UK; 3rdBiomedical EngineeringConferenceand Expo, November 07-08, 2016, Barcelona, Spain; 2ndInternationalConference onBio-Medical EngineeringandEnvironmental Technology(BMEET-16) Jan. 2-3, 2016 Pattaya (Thailand); 11thInternationalConference onHealthcareandBiological Research(ICHBR), February 21-22, 2016, Dubai;Internal Medicine: Updates and Guidelines with Insights to Practical Clinical StrategiesFebruary 29-March 4, 2016, USA;Clinical Chemistry2016, May 2-3, 2016, USA; 2016 InternationalConference On Surgical PathologyMay 3-6, 2016, Spain; 4th InternationalConference on Bioinformaticsand Computational Biology, February 2-4,2016, ICBCB Kuala Lumpur, Malaysia; 3rd International Conference on Civil, Biological and Environmental Engineering (CBEE-2016) February 4, 2016 Bali, Indonesia; InternationalConference On NGS Data Analysisand Informatics February 18-20, 2016, San Diego, United States of America; The Biomarker Conference February 18-20, 2016, San Diego, United States of America; Second International Conference on Engineering and Technology February 19-20, 2016, Colombo, Sri Lanka; 11th InternationalConference on Healthcareand Biological Research (ICHBR), Dubai, 21-22 February 2016 Dubai, United Arab Emirates; The 9th International JointConference on Biomedical Engineering Systemsand Technologies BIOSTEC 2016 21-22 February 2016, Rome, Italy; CONIELECOMP 2016 February 24-25, 2016, Cholula, Mexico; International Conference on Computer Vision and Image Processing February 26-27, 2016, Roorkee, India; WAST- 4th InternationalConference on Advances in Agriculture, Biological and Environmental Sciences February 27-28, 2016, Bangkok, Thailand; Precision Medicine: Beyond the Genome for Insights into New Treatments San Francisco, March 7-8, 2016 United States of America; 2016 6th InternationalConference on Biomedical Engineeringand Technology - ICBET March 12-14, 2016, Singapore, Singapore;

Track 13- Nanomedicine and Nanopharmaceuticals:

Nanopharmaceuticalssuch as liposomes,quantum dots, dendrimers,carbon nanotubesand polymeric nanoparticles have brought considerable changes in drug delivery and the medical system. Nanopharmaceuticals offer a great benefit for the patients in comparison with the conventional drugs. There are several advantages of these drugs such as enhanced oral bioavailability, improved dose proportionality, enhanced solubility and dissolution rate, suitability for administration and reduced food effects.

Related Conferences

Conference and Exhibition onMetabolomics, May 16-18, 2016 Osaka,;Conference onGenetic Counseling and Genomic MedicineAugust 11-12, 2016 Birmingham; Japan; 5thConference onTissue Science and Regenerative MedicineSeptember 12-14, 2016 Berlin, Germany;Conference onRestorative MedicineOctober 24-26, 2016 Chicago, USA;Conference on Molecular Genetics, November 28-30, 2016 Chicago, USA; Golden Helix Symposium, January 14-16, 2016, Mansoura, Egypt;ThePersonalized Medicine, World Conference 24-27 January, 2016, San Francisco, USA; 14thAsia-Pacific Federation forClinical Biochemistryand Laboratory Medicine Congress, November 26-29, 2016,Taipei, Taiwan;Personalized Medicine, July 10-15, 2016, Hong Kong, China; 18thInternational Conference on Pharmaceutical Engineering, March 30 - 31, 2016, Istanbul, Turkey

Track 14- Nanomedicine Applications:

One of the most promising applications of nanotechnology is in the field of medicine. Indeed, a whole new field of nanomedicine is emerging. Nanomedicine has been defined as the monitoring, repair, construction and control of human biological systems at the molecular level using engineered nano devices and nanostructures. It can also be regarded as another implementation of nanotechnology in the field of medical science and diagnostics.

Related Conferences

InternationalConference and Expo on Nanoscienceand Molecular Nanotechnology September 26-28, 2016 London, UK: 7th World Nano Conference May 19-21, 2016 Osaka, Japan: 8th World Medical Nanotechnology Congress & Expo June 9-11, 2016 Dallas, USA:12th Nanotechnology Products Expo November 10-12, 2016 Melbourne, Australia: 9th Nano Congress for Future Generation June 27-29, 2016 Valencia, Spain: 4th Nanoscience & Nanotechnology Conference (ICNT2016) Kuala Lumpur, Malaysia, 28th to 29th January 2016 : Nanotechnology Conference & Expo Baltimore, USA, 4th to 6th April 2016: InternationalConference on Nanotechnology Modellingand Simulation (ICNMS 2016) April 1-2, 2016 Prague, Czech Republic: 4thConference on Nanoand Materials Science (ICNMS 2016) New York, USA: ASME 4th GlobalConference on Nano Engineering for Medicineand Biology 2016February 21-24, 2016 Houston, TX, USA

American Nano Society, International Association of Nanotechnology, Center for Biological and Environmental Nanotechnology, Rice University

See the article here:

Medical Nanotechnology |Nanotechnology congress |Medical ...

Using Nanotechnology to Enhance the Properties of Everyday Materials – AZoM

Our understanding of the nanoscale world is continually developing. Aron Claeys, founder of Nanex, saw the potential of nanotechnology when the science was still in its infancy and recognised that nanoparticle based coatings could play a prominent role in extending the lifespan of materials such as leather and textiles. In addition to this Nanex now plan to start working on novel technologies that use nanoparticles to purify pollution in water and air and to prevent the spread of bacteria.

AZoM spoke to Aron about the history of Nanex, how he expects nanoscience to impact the world and Nanexs plans for the future.

I started Nanex because I had a keen interest in nanotechnology and how it could be used to improve the environmental issues we are facing. The field of nanotechnology was beginning to open up to the wider world and I was fascinated by it. I was amazed that when a material is reduced to the nanoscale it develops novel properties which are not observed at the microscale. These properties can sometimes be themselves useful, or often unwanted properties on the macro scale can be removed.

To me, it was obvious that nanotechnology was going to impact every industry there is. And of course, as a young person I was concerned about the growing strain that humanity is placing on the environment. I also saw all of the interest around green technology such as solar and clean energy systems and began to wonder how nanotechnology could be used to enhance these.

From that point on, I started to research nanotechnology on a very broad scale as, at this point, I didnt know which direction I was going to take my research in. I began working with some nanotechnology specialists who introduced me to the coatings industry. It was then that I realised that protective coatings which exploit nanotechnology could improve the sustainability, the durability and the quality of materials. These coatings provide a protective layer which can be anti-bacterial, withstand scratches, clean itself, can be easily cleaned without the use of heavy detergents or even any detergents at all!

Coating nanotechnology was already relatively advanced at this point and, having started from scratch and having limited resources, I saw this as a perfect starting point. We started working on new coating materials and products to develop for the market. After seeing that coatings for textiles and leathers were in high demand for both manufacturers and wholesalers we began to focus our efforts here.

Our research team started to experiment further on different types of nanoparticles and nanoparticles of different sizes. The size of the nanoparticles in the dispersion has a significant effect on the properties and chemistry of the solution we produce.

Weve now been developing our most recent range of products for the last nine months. Weve developed some advanced coatings that can improve the quality of leathers. We live in a society built on over-consumption where things no longer last we want our sprays to help goods last longer so people have more time to enjoy them. Our sprays also reduce the need to use detergent when washing clothes, reducing environmental impact.

Shutterstock | Volodymyr Plysiuk

We looked at different nanoparticles and how they reacted with different materials. We also researched traditional chemistry, such as water-repellent, stain release, and anti-bacterial effects.

We considered a wide range of nanoparticle technologies such as silicon dioxide, graphene, selenium and titanium dioxide and countless others its a continual research. We were evaluating the price, the quality and if the technology is ready for commercial use. We didnt want anything that was too niche and expensive. We wanted to make sure that we developed an accessible and affordable product which allowed everyone to feel the benefit.

In addition to the silicon dioxide and different sized nanoparticles we've also been testing ceramic particles, titanium dioxides and nanocrystals. Nanocrystals are really interesting as they can be crystallized to give increased hardness with specific UV blockers.

What types of properties are you aiming towards? Which properties is most desirable to add to your coating?

The most conventional are water and stain repellent properties, however we would like to add much more to that. We are already carrying out a lot of research. As I mentioned, some self-cleaning properties could be induced using a mixture of different nanoparticles, which are specific UV blockers, so the discoloration of clothes or shoes is reduced.

We are also investigating nanoparticles which can increase the hardness so the material can be more scratch proof or less prone to other forms of damage. These multi-functional properties are the way we're going right now.

Shutterstock | Kateryna Kon

For the time being we are currently focusing on the textiles and leather industries. However, were also seeing a lot of requests coming through from many different industries from the furniture and outdoor market to motorcycle and scooter manufacturers.

There are countless different areas in which Nanex coatings can be used but these markets will be the first that we explore as the demand is so high.

Weve already seen the coatings being used unconventionally. For example, we have a customer who is using the coatings in his artwork.

This artist is applying Nanex coatings on concrete using a stencil and once it has dried the coating becomes invisible. The artwork then becomes visible whenever it rains as the water will only follow where the coating has not been applied.

So far, weve only focused on one industry and we know that our technology has the scope to benefit so many different industries. We have the expertise and knowledge on our team to offer consultancy and work on joint development projects in a wide range of different areas. Were particularly interested in adding nanoparticles to construction materials or other composite materials to make them lighter, more efficient or to make them antibacterial.

We have ideas about how we could create biodegradable plastics which would reduce the excessive amount of waste humans are currently producing at landfills. Were also interested in seeing how nanoparticles can be incorporated into water and air purification technology.

We want to broaden the scope of our projects and want to stimulate, invite and inform other companies and industries to connect with us so we can work together to create next-generation materials that will make the planet better. Whether it is antibacterial packaging that extends the lifetime of food or if it is purification systems that reduces the spread of disease.

Shutterstock | Komsan Loonprom

In around two months we are going to be ready to do our big launch. It will be in Belgium at the start and then we will expand over Europe. We already have distributers in Asia so we expect to rapidly expand there.

Were going to launch in just a matter of months so keep your eyes peeled as things are going to get exciting.

From an early age, Aaron had a strong passion for entrepreneurship and how new ideas could be used to face the Worlds environmental challenges. Following years of self-study Aaron aimed towards creating a company that would help in building a more sustainable world. This is how Nanex was founded.

After seven years of intensive research Nanex developed several different coatings that utilised nanotechnology to improve the lifespan, and reduce detergent use, for commodity items such as shoes and clothes.

Aaron also offers his expertise as an environmental nanotechnology specialist both as a consultant and in joint development projects which aim towards environmental sustainability. These projects span from working with biodegradable materials, air and water purification and increasing energy efficiency.

Disclaimer: The views expressed here are those of the interviewee and do not necessarily represent the views of AZoM.com Limited T/A AZoNetwork the owner and operator of this website. This disclaimer forms part of the Terms and conditions of use of this website.

Original post:

Using Nanotechnology to Enhance the Properties of Everyday Materials - AZoM

NIOSH Publishes Chapter on Analysis of Carbon Nanotubes and Nanofibers on Filters by Transmission Electron … – Nanotechnology News

Home > Nanotechnology Columns > Bergeson & Campbell, P.C. > NIOSH Publishes Chapter on Analysis of Carbon Nanotubes and Nanofibers on Filters by Transmission Electron Microscopy

Abstract: The National Institute for Occupational Safety and Health (NIOSH) has published a chapter in the fifth edition of the NIOSH Manual of Analytical Methods (NMAM) entitled "Analysis of Carbon Nanotubes and Nanofibers on Mixed Cellulose Ester Filters by Transmission Electron Microscopy."

July 26th, 2017

The National Institute for Occupational Safety and Health (NIOSH) has published a chapter in the fifth edition of the NIOSH Manual of Analytical Methods (NMAM) entitled "Analysis of Carbon Nanotubes and Nanofibers on Mixed Cellulose Ester Filters by Transmission Electron Microscopy." See https://www.cdc.gov/niosh/nmam/pdf/chapter-cn.pdf The draft chapter provides standardized approaches for the analysis of carbon nanoparticles. The chapter provides detailed guidance on effective means to perform transmission electron microscopic analysis on carbon nanotubes and nanofibers that are sampled from occupational atmospheres. The chapter notes that, with respect to quantification, it is important to recognize the limitations of a particle counting method. According to the chapter, because of the heterogeneity of carbon nanotube powders, particles in the same size bin can vary greatly in their properties. Complex structures of varying mass, density, shape, and composition (e.g., amorphous carbon, residual catalyst) can fall into the same size bin, and dissimilar particles (e.g., cluster and matrix) in a given bin may have different toxicological effects. Thus, the chapter states, "even for a given material, particle envelope size alone may not be an adequate risk indicator." Given the heterogeneity and variety of the carbon nanotube/carbon nanofiber products to which workers are exposed, "it is important to apply several methods to assess worker exposure, through inhalation and other routes."

Bookmark:

Read more:

NIOSH Publishes Chapter on Analysis of Carbon Nanotubes and Nanofibers on Filters by Transmission Electron ... - Nanotechnology News

Global Metrology Software Market – Industry Forecast to 2025 … – Business Wire (press release)

DUBLIN--(BUSINESS WIRE)--The "Global Metrology Software Market Analysis & Trends - Industry Forecast to 2025" report has been added to Research and Markets' offering.

The Global Metrology Software Market is poised to grow at a CAGR of around 12.1% during the forecast period 2016 to 2025.

Some of the prominent trends that the market is witnessing include increasing demand for portable CMM (Coordinate Measuring Machine) software, rising adoption of laser based 3D metrology, continuous advancements in nanotechnology and flexible electronics and emergence of Asia Pacific as manufacturing hub.

Based on metrology type, market is segmented into scientific metrology, industrial metrology and other metrology types. Depending on product, market is classified into Optical Digitizers and Scanners (ODS), Coordinate Measuring Machine (CMM) and other products. Based on application, market is categorized into quality control and inspection, measurement & alignment, reverse engineering, virtual simulation and other applications. By end user, metrology software market is segregated into electronics and electrical, automotive, media & entertainment, power & energy, aerospace & defense, medical, industrial manufacturing and other end users.

Companies Mentioned

Key Topics Covered:

1 Market Outline

2 Executive Summary

3 Market Overview

4 Metrology Software Market, By Metrology Type

5 Metrology Software Market, By Product

6 Metrology Software Market, By Application

7 Metrology Software Market, By End User

8 Metrology Software Market, By Geography

9 Key Player Activities

10 Leading Companies

For more information about this report visit https://www.researchandmarkets.com/research/fr5f6s/global_metrology

The rest is here:

Global Metrology Software Market - Industry Forecast to 2025 ... - Business Wire (press release)

The Global Market for Nanotechnology and Nanomaterials, 2010-2027 – PR Newswire (press release)

Read the full report: http://www.reportlinker.com/p04143834/The-Global-Market-for-Nanotechnology-and-Nanomaterials-in-Energy.html

The report offers: In-depth analysis of the global market for nanotechnology and nanomaterials, applications, producers, product developers and products Assessment of nanomaterials market including production volumes, competitive landscape, commercial prospects, applications, demand by market and region, commercialization timelines, prices and producer profiles. Examples of successful markets and products. Analysis of global trends, including historical data from 2010, and projections to 2027. Exploration of nanomaterials and nanotech-enabled products market structures and value chains. Collaborations in nanotechnology enabled product development. Assessment of end user markets for nanotechnology and nanomaterials including market drivers and trends, applications, market opportunity, market challenges and application and product developer profiles. Unique assessment tools for the nanomaterials market, end user applications, economic impact, addressable markets and market challenges to provide the complete picture of where the real commercial opportunities in nanotechnology and nanomaterials are. Main application and product opportunities in nanotechnology.

Read the full report: http://www.reportlinker.com/p04143834/The-Global-Market-for-Nanotechnology-and-Nanomaterials-in-Energy.html

About Reportlinker ReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.

http://www.reportlinker.com

__________________________ Contact Clare: clare@reportlinker.com US: (339)-368-6001 Intl: +1 339-368-6001

View original content:http://www.prnewswire.com/news-releases/the-global-market-for-nanotechnology-and-nanomaterials-2010-2027-300490333.html

SOURCE Reportlinker

http://www.reportlinker.com

Read the original post:

The Global Market for Nanotechnology and Nanomaterials, 2010-2027 - PR Newswire (press release)

Global Transmission Electron Microscope Market 2017-2021 … – Business Wire (press release)

DUBLIN--(BUSINESS WIRE)--The "Global Transmission Electron Microscope Market 2017-2021" report has been added to Research and Markets' offering.

The global transmission electron microscope market to grow at a CAGR of 8.56% during the period 2017-2021.

The report covers the present scenario and the growth prospects of the global transmission electron microscope market for 2017-2021. To calculate the market size, the report considers the sales market and does not include sales from the components used in the manufacture of TEM. The report also includes a discussion of the key vendors operating in this market.

Electron microscopes are broadly categorized as TEM and SEM. This report covers the market size, growth opportunities, challenges, and trend of the global TEM market. TEMs use a beam of electrons that are transmitted through an ultra-thin specimen, which then interact with the specimen as they pass through it. From the interaction, an image is formed, which is then magnified and focused on a fluorescent screen upon a layer of photographic film, for getting detected by a sensor; for example, a charge-coupled device.

The latest trend gaining momentum in the market is Development of newer forms of TEMs. As TEMs can present 2D images of the specimen, there is a limit to the size of the specimen that has to be viewed. Newer models of TEMs combine the features of both TEM as well as SEM. Nion, a prominent vendor in the TEM market, used to manufacture the second generation spherical aberration corrector for TEM, which has shifted to exclusively manufacturing STEMs due to its high advantages over TEM.

Key vendors

Key Topics Covered:

Part 01: Executive summary

Part 02: Scope of the report

Part 03: Research Methodology

Part 04: Introduction

Part 05: Market landscape

Part 06: Market segmentation by application

Part 07: Market segmentation by end-user

Part 08: Geographical segmentation

Part 09: Decision framework

Part 10: Drivers and challenges

Part 11: Market trends

Part 12: Vendor landscape

Part 13: Key vendor analysis

Part 14: Appendix

For more information about this report visit https://www.researchandmarkets.com/research/tpt7zd/global

Read more:

Global Transmission Electron Microscope Market 2017-2021 ... - Business Wire (press release)

NanoEHS Webinar Will Address How NNCI Nodes Support Environmental Research – Nanotechnology News

Home > Nanotechnology Columns > Bergeson & Campbell, P.C. > NanoEHS Webinar Will Address How NNCI Nodes Support Environmental Research

Abstract: The National Nanotechnology Initiative (NNI) will hold a webinar on July 27, 2017, entitled "The National Nanotechnology Coordinated Infrastructure (NNCI) Nodes and Environmental Research: Examples from the Field."

July 21st, 2017

The National Nanotechnology Initiative (NNI) will hold a webinar on July 27, 2017, entitled "The National Nanotechnology Coordinated Infrastructure (NNCI) Nodes and Environmental Research: Examples from the Field." See https://events-na12.adobeconnect.com/content/connect/c1/1305935587/en/events/event/shared/1505387415/event_landing.html?sco-id=1721579551 The National Science Foundation (NSF) supports NNCI, which includes 16 user facility sites, their affiliated partners, and a coordinating office. NNCI sites provide researchers, academics, small and large businesses, and government scientists with access to university user facilities with leading-edge fabrication and characterization tools, instrumentation, and expertise within all disciplines of nanoscale science, engineering, and technology. The webinar will provide information on how the NNCI nodes can support research. The webinar will be moderated by Larry Goldberg, Senior Engineering Advisor, Directorate for Engineering, NSF. Speakers include:

- Bruce Clemens, Walter B. Reinhold Professor in the School of Engineering and Professor of Photon Science, and Applied Physics, Stanford University; and - Michael Hochella, University Distinguished Professor, Geosciences, Virginia Tech; Laboratory Fellow, Geosciences, Pacific Northwest National Laboratory.

Webinar participants will be able to submit questions during the question and answer period. Submitted questions will be considered in the order received and may be posted on the NNI website. Registration is required.

Bookmark:

Excerpt from:

NanoEHS Webinar Will Address How NNCI Nodes Support Environmental Research - Nanotechnology News

USDA Announces $4.6 Million for Nanotechnology Research … – National Institute of Food and Agriculture (press release) (blog)

Media contact: Sally Gifford, 202-720-2047

WASHINGTON, D.C. July 20, 2017 The U.S. Department of Agriculture's (USDA) National Institute of Food and Agriculture (NIFA) today announced 13 grants totaling $4.6 million for research on the next generation of agricultural technologies and systems to meet the growing demand for food, fuel, and fiber. The grants are funded through NIFA's Agriculture and Food Research Initiative (AFRI), authorized by the 2014 Farm Bill. Nanotechnology is being rapidly implemented in medicine, electronics, energy, and biotechnology, and it has huge potential to enhance the agricultural sector, said NIFA Director Sonny Ramaswamy. NIFA research investments can help spur nanotechnology-based improvements to ensure global nutritional security and prosperity in rural communities. The Agriculture and Food Research Initiative is Americas flagship competitive grants program for foundational and translational research, education, and extension projects in the food and agricultural sciences. These grants are awarded under the AFRI Foundational: Agriculture Systems and Technology program. Funded projects support nanotechnology-based solutions that improve food production, nutrition, sustainable agriculture, and food safety. Fiscal year 2016 grants being announced include: Nanotechnology for Agricultural and Food Systems

# USDA is an equal opportunity lender, provider and employer.

Read more:

USDA Announces $4.6 Million for Nanotechnology Research ... - National Institute of Food and Agriculture (press release) (blog)

The Global Market for Nanotechnology and Nanomaterials, 2010-2027 – Broadway World

NEW YORK, July 18, 2017

Read the full report: http://www.reportlinker.com/p04143834/The-Global-Market-for-Nanotechnology-and-Nanomaterials-in-Energy.html

The report offers: In-depth analysis of the global market for nanotechnology and nanomaterials, applications, producers, product developers and products Assessment of nanomaterials market including production volumes, competitive landscape, commercial prospects, applications, demand by market and region, commercialization timelines, prices and producer profiles. Examples of successful markets and products. Analysis of global trends, including historical data from 2010, and projections to 2027. Exploration of nanomaterials and nanotech-enabled products market structures and value chains. Collaborations in nanotechnology enabled product development. Assessment of end user markets for nanotechnology and nanomaterials including market drivers and trends, applications, market opportunity, market challenges and application and product developer profiles. Unique assessment tools for the nanomaterials market, end user applications, economic impact, addressable markets and market challenges to provide the complete picture of where the real commercial opportunities in nanotechnology and nanomaterials are. Main application and product opportunities in nanotechnology.

Read the full report: http://www.reportlinker.com/p04143834/The-Global-Market-for-Nanotechnology-and-Nanomaterials-in-Energy.html

About Reportlinker ReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.

http://www.reportlinker.com

__________________________ Contact Clare: clare@reportlinker.com US: (339)-368-6001 Intl: +1 339-368-6001

View original content:http://www.prnewswire.com/news-releases/the-global-market-for-nanotechnology-and-nanomaterials-2010-2027-300490333.html

SOURCE Reportlinker

The rest is here:

The Global Market for Nanotechnology and Nanomaterials, 2010-2027 - Broadway World

A New Nanotechnology Catalyst, a New Era for Puralytics – PR Web (press release)

We are thrilled to see the performance of the new catalyst. Even on a cloudy day here in Oregon, we can see enhanced and quicker performance. Upgrading the catalyst has already and will continue to have a significant effect on product development

Hillsboro, Oregon (PRWEB) July 18, 2017

A novel period starts for Puralytics, a water purification company with headquarters in Oregon. Puralytics products use a nanotechnology catalyst-coated mesh as the key component to purify water through photocatalytic processes. The catalyst is activated by sunlight or by LEDS to remove a broad range of contaminants.

Several years of research and development by Puralytics engineers and scientists have delivered a new, proprietary material. This new nanotechnology material has been engineered and manufactured in-house and lowers catalyst costs by 60% or more while increasing performance by 50% or more in most applications. It is also more durable and easy to adapt to different systems and product applications for use in product and system development.

We are thrilled to see the performance of the new catalyst. Even on a cloudy day here in Oregon, we can see enhanced and quicker performance. Upgrading the catalyst has already and will continue to have a significant effect on product development, said Amy Bortvedt, scientist at Puralytics.

Presently, Puralytics has two primary lines of products: the SolarBag and the Shield. Both products utilize this material as the key element to purify water. The SolarBag, a portable water purifier activated by sunlight, has been used by outdoor enthusiasts, nonprofit organizations, mission teams and emergency response teams. The second line of products, a purification unit activated by LEDs and capable of treating thousands of liters per day, has been deployed internationally for disaster response and at remote community locations for drinking water purification in South America, North America and the Middle East.

This new nanotechnology material will enable Puralytics to work with key development partners to launch new product formats and applications and enter new markets. Not only the tremendous cost reduction and the performance improvements but also the durability of the material is a huge advantage in product development. This significant development allows us the ability to access a much wider and deeper market in water treatment applications, said Rick Lockett, Puralytics CEO.

Puralytics is developing a series of products for release later this year: solar-activated bladder purification units, a new version of the SolarBag, the High Flow Shield and Nano Shield for modular system applications; and projects to integrate this new catalyst into its partners products, systems and sales channels.

###

About Puralytics Our world has a finite supply of water that is increasingly contaminated, water demands that are constantly increasing, and a growing public awareness of the health and manufacturing risks associated with poor water quality. Puralytics, a water purification equipment company headquartered in Beaverton, Oregon, has developed a patented photochemical water purification process that uses light energy to activate an advanced nanotechnology photocatalyst.

Share article on social media or email:

Read the rest here:

A New Nanotechnology Catalyst, a New Era for Puralytics - PR Web (press release)

Almirall looks to nanotechnology to improve dermatology products – The Pharma Letter (registration)

Spain's leading drugmaker Almirall has launched a new research project, dubbed Nano4Derm, to investigate

To continue reading this article and to access exclusive features, interviews, round-ups and commentary from the sharpest minds in the pharmaceutical and biotechnology space you need to be logged into the site and have an active subscription or trial subscription. Please loginorsubscribe in order to continue reading. Claim a week's trial subscriptionby signing up for free today and receive our daily pharma and biotech news bulletin free of charge, forever.

AlmirallDealsDermatologicalsPharmaceuticalResearchSpain

Access The Pharma Letter's latest news free for 7 days

PLUS... you can receive the Pharma Letter headlines and news roundup email free forever

Click here to take a free trial

Unlimited access to The Pharma Letter site for a whole year Only 77 per month or 820 per year

Click here to subscribe

Read the original:

Almirall looks to nanotechnology to improve dermatology products - The Pharma Letter (registration)