Nanotechnology and it’s Benefits

Posted by admin on Jul 23rd, 2010 | 0 comments

Nanotechnology and it’s Benefits

Nanotechnology is a protective coating that enhances products of any sort of material. It can strengthen and improve the assets to benefit both manufacturers and end users. With the help of Nanotechnology, which is an applied science, new products are created to protect various materials.

Protective coating is a result of nanotechnology. It makes the materials weather resistant and the surface becomes easy to clean as well. Its protective coating exhibits very high resistance to corrosion attack, long term stability in aggressive conditions and an environmentally friendly, easy and economical preparation procedure.

Nanotechnology and its characteristics will be different in the case of each material surface and it is available with standard features and techniques. Nanotechnology uses more techniques and tools for its updating. Nanotechnology research has been made continuously to update technology using different techniques and tools available in the world. New technologies have been used to measure the molecular interactions that take place.

Nanotechnology has the potential to revolutionize the life of materials used in every sector be it industrial, residential, medicines, genetics, communication, textile and many more. It helps to improve products and production processes with better techniques and new functionality.

In coming years, products based on nanotechnology are expected to impact nearly all-industrial sectors and enter the consumer markets in large quantities. Considering the future prospects of nanotechnology, countries across the world are investing heavily in this sector. Diamon Fusion International is one such example that makes the optimum use of nanotechnology by providing

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Nanotechnology Town Hall Meeting – Sir J. Fraser Stoddart

Posted by admin on Jul 22nd, 2010 | 2 comments

On Wednesday, May 13, 2008, Sir J. Fraser Stoddart, Board of Trustees Professor of Chemistry of Northwestern University, discussed the fundamentals of nanotechnology in plain English as part of the University’s third nanotechnology town hall meeting. This is a short video feature on Sir Fraser and his presentation produced by Northwestern University in conjunction with Mike Anzaldi.

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Nanotechnology- its role in electronics and its effects

Posted by admin on Jul 21st, 2010 | 0 comments

Nanotechnology- its role in electronics and its effects

Summary: Nano as it implies small particles or atoms which is the building blocks of all materials is a 20th century shoot up technology is the centre for design & manufacturing of almost all products. 

Techs24x7.com“>What is Nanotechnology?

Nanotechnology is the science of molecular scale which refers to the projected ability to manufacture highly performed products. In general it deals with very small structures or atoms. It is scaled by the nanometer scale and one nanometer is one billionth of a meter which is very small to see but very powerful to produce very high end products.

 Role of Nanotechnology in electronics

Role of nanotechnology in electronics is to improve the capability of electronic products. The technology also made the devices very light making the product easy to carry or move and at the same time it has reduced the power requirement. Ever since the use of nanotechnology have implemented in the process of manufacturing electronic products it has brought a revolution in this industry particularly in telecommunications & information technology. Following subjects can give a broader idea about its major role in details: 

Change of display screens: Techs24x7.com“>LCD and its improved versions are example. The quality of display screens has improved a lot while its

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Nanotechnology Animation

Posted by admin on Jul 20th, 2010 | 6 comments

Animation describing the research and goals of the Siteman Center for Cancer Nanotechnology Excellence at the Siteman Cancer Center at Barnes-Jewish Hospital and Washington University School of Medicine in St. Louis, Missouri. Visit www.sccne.wustl.edu for more information about the Siteman Center for Cancer Nanotechnology Excellence.
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NANOWEAPONRY: THE NEWARMS RACE – Nanofactories make the manufacture of many kinds of weapons possible with incredibly accurate computerized systems. While older technologies were both difficult and costly, nanoweapons could be manufactured easily and quickly. Conventional style weapons made more powerful and new weapons such as poison-carrying nanorobots could be made by the billions nearly cost-free and delivered remotely. Once inhaled, they might even be tailor-made to kill only people with specific genetic signatures, thus used as a means for ethnic cleansing. An arms race could trigger reckless development and testing of new weapons with unpredictable results. Experts agree this is probably the #1 potential danger of molecular nanotechnology. ENVIRONMENTAL IMPACT AND EXISTENTIAL DANGERS – The use of nanofactories to make countless cheap, durable products could lead to ‘disposable thinking’ where products are created en mass and discarded in abundance, overwhelming recycling needs and the environment. Poor nations might use biomass (carbon-rich trees) as fuel for nanofactories, leading to increased deforestation. Experimentation in nano-augmentation of plants and animals (for example, to make them larger, smaller, faster, stronger, etcetera) could easily lead to runaway consequences in the wild (“green goo” vs “gray goo”) that could threaten existing plants and animals, affect the food chain, and pose unforeseen threats to human life. This is a prime concern. Ecophage …

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Dangers of Molecular Nanotechnology (MNT) Prt 1

Posted by admin on Jul 17th, 2010 | 23 comments

If potential benefits of molecular nanotechnology (MNT) sound too good to be true, there is one caveat — the potential dangers of molecular nanotechnology. When nanofactories can arrange atoms into structures — playing with the building blocks of life itself, or in this case nanoblocks — theoretically anything allowable by the laws of physics can be created fast and cheap. Requirements include a few square feet for the nanofactory, the software, and an electrical outlet. Criminals, terrorists, disturbed individuals, governments, and antisocial groups of all stripes would be incredibly empowered by such technology. Additional potential dangers of molecular nanotechnology threaten the economy, environment, human rights, and world peace. The rush to gain supremacy through nanoweaponry could lead to a new arms race, while attempts to stranglehold the technology would likely result in independent, covert development. Unilateral, “open-source” international cooperation is another option that runs its own risks, and control in the public sector could lead to inequitable benefits and an Orwellian society. The probability factor of certain potential dangers of molecular nanotechnology will be higher than others, but all are possible within a scope of circumstances that, without prevention through forethought and planning, could feasibly come to pass. Some dangers cannot be discounted even with said planning, while others can reasonably be assumed to be goals of recognized …

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