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

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

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

Nanotechnology Park Sri Lanka
Located on 50 Acres of lush land, tranquil and verdant, creating an ideal space for #39;thinking #39;, SLINTEC aims to develop a world-class Nanotechnology Park in Sri Lanka by attracting investments and establishing collaborations with local as well as global companies. Perfectly connected via highways, surrounded by a knowledge hub of universities and only 45 minutes from the commercial center that is Colombo, the Park offers a perfect synergy of serenity and convenience. The Park creates opportunities for all businesses to develop new products through a collaborative innovation process, taking them from research through development toward commercialization. The foundation for this framework is the Nanotechnology Centre of Excellence (NCE), which marks the first phase of the development of the Park.

By: Slintec Sri Lanka

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Nanotechnology Park Sri Lanka - 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 ...

By: Adam Ford

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Christine Peterson - Nanotechnology - Video

ATIC - Nanotechnology (no audio)

By: kiloSG123

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ATIC - Nanotechnology (no audio) - Video

IRAN-ranked-top-ten-in-the-world-in-nanotechnology.mp4
Published on 4 Feb 2013 Nanotechnology, science of the future. Professors, scientists, researchers and engineers of Iran #39;s Basij or (Volunteer Forces) who scpeicalize in the field of nanotechnology have held a conference at Amir Kabir Unviversity of Technology in Tehran. Nanotechnology is simply the manipulation of matter on an atomic and molecular scale, which may be able to create many new materials and devices applicable to the fields of medicine, electronics, biomaterials and energy production. Iran has advanced tremendously in the past years in nanotechnology Nanoctechnology can be broken down into nanocomposites which can also be used in agriculture, automotive industry and building materials. Iran has recently unveiled eight nano carbon products with carbon structure; grapheme, graphene oxide, single-walled and multi-walled nano tubes, carbon nano filters, carbon nano balls and porous nano graphenes. According to Iran #39;s Nanotechnology Initiative Council (INIC) over 3% of the world publications on nanotechnology belong to Iranian researchers and scientists. Iran also plans to export the new nano products to regional countries.

By: anon pusher

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IRAN-ranked-top-ten-in-the-world-in-nanotechnology.mp4 - Video

Nano Track - Self cleaning coating on glass with nanotechnology, test with dirty water
Nano Track offers a coating that makes most surfaces become almost maintenance free and easily cleaned. This is because the coating makes the surface water repellent (hydrophobic) with very strong anti-stick properties. Because of this, dirt is picked up by water and then gets carried away. It also means that fouling can #39;t grow on the surface. The coating is weather and UV resistant and it even withstands temperature changes, both plus and minus over time. This probably leads to an extended lifetime of the product. In regards to health, environmenta and safety our coating does not contain any nanoparticles. We use SiO2 liquid and it is called "nano" because of it #39;s thickness which is below 100nm (nm = nanometer). The coating works with small modifications on glass, glazed ceramics, plastic, painted surfaces like automotive paint, precious metals, textile, microporous surfaces and stone (mineral surfaces).

By: NanoTrackAB

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Nano Track - Self cleaning coating on glass with nanotechnology, test with dirty water - Video

TVP 11: Nanotechnology
The Nanotechnology revolution is nigh! I talk about the possible benefits, and drawbacks, of nanotechnology. Are the tiny robots our friends or our enemies? Only time will tell... Facebook: http://www.facebook.com Twitter: twitter.com Google+: http://www.youtube.com Pinterest: pinterest.com Tumblr: http://www.tumblr.com "Sneaky Snitch" Title Music: mp3skull.com

By: Steve Voudrie

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TVP 11: Nanotechnology - Video

NEW YORK, Jan. 22, 2013 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:

Solid State Thin Film Battery: Market Shares, Strategies, and Forecasts, Worldwide, Nanotechnology, 2013 to 2019

http://www.reportlinker.com/p01084201/Solid-State-Thin-Film-Battery-Market-Shares-Strategies-and-Forecasts-Worldwide-Nanotechnology-2013-to-2019.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Electronic_Component_and_Semiconductor

Batteries are changing. Solid state batteries permit units to be miniaturized, standalone, and portable. Solid-state batteries have advantages in power and density: low-power draw and high-energy density. They have limitations in that there is difficulty getting high currents across solidsolid interfaces.

Power delivery is different in solid state thin film batteries, there is more power per given weight. The very small and very thin size of solid state batteries helps to reduce the physical size of the sensor or device using the battery. Units can stay in the field longer. Solid state batteries can store harvested energy. When combined with energy harvesting solid state batteries can make a device stay in the field almost indefinitely, last longer, power sensors better.

Temperature is a factor with batteries. The solid state batteries work in a very broad range of temperatures, making them able to be used for ruggedized applications. Solid state batteries are ecofriendly. Compared with traditional batteries, solid state thin film batteries are less toxic to the environment.

Development trends are pointing toward integration and miniaturization. Many technologies have progressed down the curve, but traditional batteries have not kept pace. The technology adoption of solid state batteries has implications to the chip grid. One key implication is a drive to integrate intelligent rechargeable energy storage into the chip grid. In order to achieve this requirement, a new product technology has been embraced: Solid state rechargeable energy storage devices are far more useful than non-rechargeable devices.

Thin film battery market driving forces include creating business inflection by delivering technology that supports entirely new capabilities. Sensor networks are creating demand for thin film solid state devices. Vendors doubled revenue and almost tripled production volume from first quarter. Multiple customers are moving into production with innovative products after successful trials.

A solid state battery electrolyte is a solid, not porous liquid. The solid is denser than liquid, contributing to the higher energy density. Charging is complex. In an energy-harvesting application, where the discharge is only a little and then there is a trickle back up, the number of recharge cycles goes way up. The cycles increase by the inverse of the depth of discharge. Long shelf life is a benefit of being a solid state battery. The fact that the battery housing does not need to deal with gases and vapors as a part of the charging/discharging process is another advantage.

According to IBM, the world continues to get "smaller" and "flatter." Being connected holds new potential: the planet is becoming smarter because sensors let us manage the environment. Intelligence is being infused into the way the world works.

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Solid State Thin Film Battery: Market Shares, Strategies, and Forecasts, Worldwide, Nanotechnology, 2013 to 2019

TOKYO--(BUSINESS WIRE)--

The nano tech Executive Committee is pleased to present nano tech 2013, the 12th International Nanotechnology Exhibition & Conference, from January 30 to February 1 at Tokyo Big Sight (Tokyo International Exhibition Center), East Exhibition Halls 4, 5, and 6 and Conference Tower.

Being held for the 12th time, the event will feature 802 booths in total by 571 companies and organizations. Of these, 235 booths will have exhibits by 221 companies and organizations from 22 countries and regions outside Japan.

Practical applications of nanotechnology are advancing, backed by the governments of individual countries. China, South Korea, Taiwan, and other Asian countries and regions have made nanotechnology into a national priority, actively supporting R&D and rapidly approaching parity with leading nanotechnology countries in the West.

[Highlights of nano tech 2013]

(1) A growing number of exhibits showing practical nanotech applications and actual products

In Japan, the influential business association Keidanren pointed to the importance of nanotechnology back in 2001. In the decade since then, R&D in the field has been funded aggressively. Now that the second nanotech decade is here, we are seeing more research aimed at achieving practical, marketable technologies in a relatively short time. Development with a clear focus on the endgame - the technological goals to be achieved and products to be realized - is being carried out actively.

(2) Large booths by all of Japans major nanotech labs

The National Institute of Advanced Industrial Science and Technology (AIST), the National Institute for Materials Science (NIMS), RIKEN, the New Energy and Industrial Technology Development Organization (NEDO) and Japans other leading research organizations will have large exhibits, where one of the attractions is being able to have technologies explained by the researchers themselves.

Much of their research is aimed at practical applications of the outstanding technology seeds emerging in the nanotechnology field. These organizations also serve to facilitate information exchange regarding cooperation by private industry, government, and academia, including component development through vertical upstream-downstream collaboration and through tie-ups across industries and across fields.

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The World’s Largest Nanotechnology Exhibition - nano tech 2013

Michael Woodside Promise and Perils of Nanotechnology Part II Winter 2013
Dr. Michael Woodside presents Promise and Perils of Nanotechnology Part II on January 31th, 2013 in the Technology and Future of Medicine course LABMP 590 http://www.singularitycourse.com at the University of Alberta in Edmonton, Canada. Table of Contents 00 Kim Solez introduction, colorful timeline from BBC with most likely and least likely events, Singularity in 2045 8:1 against, http://www.bbc.com , cryonics, TimeShip large cryonics facility to be built in Comfort, Texas, architects hired in November 2012, 00:09:47 Michael Woodside lecture begins, Promise and Perils of Nanotechnology part II, 00:10:05 "Practical" nanotechnology , very diverse, encompasses work at the intersection of physics, chemistry, biology, and engineering, Specific examples of nanotechnology research in progress today, 1) building structures by manipulating individual atoms Computation with quantum-dot cellular automata, atomic corrals, new architectures for computation, 00:11;00 Scanning tunneling microscope, 00:12:00 surface of silicon, push atoms with tip around to build structures, spell IBM, make stick figure, 00:13:20 build structures to manipulate electron waves, 00:14:45 interesting interference effects, 00:16:10 Powerful tool for science but not a technology yet, very technically challenging, not routine even after 20 years of research, 00:17:00 interesting implications for computation, patterning electronic states with STM, generate "dangling bond" by removing H atom, 00:19:15 quantum-dot cellular ...

By: KimSolez

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Michael Woodside Promise and Perils of Nanotechnology Part II Winter 2013 - Video

DUBLIN--(BUSINESS WIRE)--

Research and Markets (http://www.researchandmarkets.com/research/25dzfd/lipids_in) has announced the addition of AOCS Press's new book "Lipids in Nanotechnology Book Plus" to their offering.

Nanotechnology is a rapidly expanding field which includes fundamental nanoscale phenomena and processes, nanomaterials, nanoscale devices and systems, nanomanufacturing, and benefits and risks of nanotechnology.

This book serves as a valuable reference and resource for those interested in the field of nanotechnology; from basic research to engineering aspects of nanoparticles. It covers from thermodynamics to engineering aspects of nanoparticles or nanoemulsions; synthesis and applications of surface active lipids to food and cosmetics; and from pharmaceutical applications to nanomedicine.

Readership

Lipids in Nanotechnology will be useful to scholars, scientists, and technologists who are interested in the field of lipid nanotechnology.

Key Topics Covered

Nanotechnology: Emerging Interest, Opportunities, and Challenges

Surface Active Lipids as Encapsulation Agents and Delivery Vehicles

Milk Phospholipids: A Nanocarrier System for Delivery of Bioactive Compounds

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Research and Markets: Lipids in Nanotechnology Book Plus

LABMP 590 High Points Nanotechnology Winter 2013
High points from the discussion of the lecture Promise and Perils of Nanotechnology Part I by Michael Woodside on January 29th, 2013 from the Technology and Future of Medicine course LABMP 590 at the University of Alberta in Edmonton, Canada. Copyright (c) 2013, Transpath Inc.

By: KimSolez

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LABMP 590 High Points Nanotechnology Winter 2013 - Video

CATHERINE CAMPBELL AT TYNDALL NANOTECHNOLOGY MEETING MEXICO
Catherine Campbell on behalf of the Embassy of Ireland in Mexico acnowledges the leadership of the Mexican Ambassador Carlos García de Alba at the inauguration of the Nanotechnology Meeting of the Tyndall Institute and the scientific community of Morelos.

By: LORENZO MARTINEZ GOMEZ

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CATHERINE CAMPBELL AT TYNDALL NANOTECHNOLOGY MEETING MEXICO - Video

Michael Woodside Promise and Perils of Nanotechnology Part I LABMP 590 Winter 2013
Dr. Michael Woodside presents Promise and Perils of Nanotechnology Part I on January 29th, 2013 in the Technology and Future of Medicine course LABMP 590 http://www.singularitycourse.com at the University of Alberta in Edmonton, Canada. Table of Contents 00 Kim Solez introduction, Personalized medicine, smart phone based wireless medicine, cryonics, 00:06:15 Michael Woodside lecture begins Promise and Perils of Nanotechnology part I, 1. Introduction, Definitions, Background, 00:13:06 Promise - stained glass, 00:14:20 nanotubes, space elevator, 00:17:40 cloaking, 00:18:15 diamondoid, 00:20:20 quantum computer, cryptography, 00:21:55 utility fog, 2. Promise and Peril at the level of science fiction and hype/doom., Constraints on the vision imposed by scientific realities, 3. Specific examples of promising, realistic, near term nanotechnology applications: Computation with quantum-dot cellular automata, Biomimetic nanotechnology (eg DNA origami) Synthetic biology, looking forward to Andrew Hessel #39;s talk "Hacking Life" on Feb. 7th at 4 pm. 4. Specific examples of realistic, near term concerns with nanotechnology. Copyright (c) 2013, Transpath Inc.

By: KimSolez

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Michael Woodside Promise and Perils of Nanotechnology Part I LABMP 590 Winter 2013 - Video

Silver Saver - Nanotechnology Keeps the Shine on Silver
Scientists from the Department of Materials Science and Engineering at the A. James Clark School of Engineering, University of Maryland, have teamed up with conservators from the Walters Art Museum in Baltimore, Md., to develop and test a new, high-tech way to protect silver art objects and artifacts, using coatings that are mere nanometers thick. The technique, called atomic layer deposition (ALD), will be used to create metal oxide films which, when applied to an artifact, are both transparent and optimized to reduce the rate of silver corrosion. The project is funded by the NSF #39;s SCIART grant program, which supports research in the field of cultural heritage science through the funding of collaborations among conservation experts in museums and scientists in academia. In April 2011 the National Science Foundation #39;s Science Nation web site, which highlights scientific discoveries for the public, debuted this video segment about the project called "Silver Saver," narrated by former CNN chief technology and environment correspondent Miles O #39;Brien.

By: livingselfsufficient

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Silver Saver - Nanotechnology Keeps the Shine on Silver - Video

Illinois NanoBio Node - CABPN Workshop - Applications of Nanotechnology useful to Food Science
Jozef L. Kokini, Professor of Food Engineering, Department of Food Science and Human Nutrition, UIUC - "Applications of Nanotechnology useful to Food Science" CABPN Workshop 11/07/12

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Illinois NanoBio Node - CABPN Workshop - Applications of Nanotechnology useful to Food Science - Video

On the Forefront of Nanotechnology
Li Shi, professor in the Department of Mechanical Engineering, received a TAMEST (The Academy of Medicine, Engineering, and Science of Texas) award for his work on nanoscale thermal transport and thermoelectric energy conversion. Video by Castleview Productions.

By: CockrellSchool

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On the Forefront of Nanotechnology - Video

nanotechnology rap
this is just a little mess about, for some homework i had to do. though i might as well put it up :L.

By: ykarim97

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nanotechnology rap - Video