NanoBizExchange.com » Nanotubes

High-Resolution Thin-Film Device to Sense Texture by Touch

NanoBizExchange.com — Tue, 18 Jan 2011 20:52:58 +0000

Touch (or tactile) sensors are gaining renewed interest as the level of sophistication in the application of minimum invasive surgery and humanoid robots increases. The spatial resolution of current large-area (greater than 1 cm2) tactile sensor lags by more than an order of magnitude compared with the human finger. By using metal and semi conducting nanoparticles, a 100-nm-thick, large-area thin-film device is self-assembled such that the change in current density through the film and the electroluminescent light intensity are linearly proportional to the local stress. A stress image is obtained by pressing a copper grid and a United States 1-cent coin on the device and focusing the resulting electroluminescent light directly on the charge-coupled device. Both the lateral and height resolution of texture are comparable to the human finger at similar stress levels of 10 kilopascals.
Papers in Nanotechnology

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Silicon-Nested Gadonanotubes Promise Big Advance for Medical Imaging

NanoBizExchange.com — Tue, 18 Jan 2011 20:52:54 +0000

A porous, disk-shaped “nest” for nanotubes may help magnetic resonance imaging become better than ever at finding evidence of cancer if the results of research led by investigators at Rice University are any indication of future success. The researchers, whose work was published in the journal Nature Nanotechnology, have developed a general method for trapping paramagnetic nanoparticles inside a silicon particle that, when injected into a patient’s bloodstream, would make the nanoparticles up to 50 times more effective at spotting tumors or other signs of disease.
NCI Alliance for Nanotechnology in Cancer – Nanotech News

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Sheathing Planes in a New Skin to Repel Frost and Ice

NanoBizExchange.com — Tue, 18 Jan 2011 20:52:47 +0000

M.I.T. researchers say that frost buildup can be better controlled by creating a surface with nanoscale texturing.
NYT > Nanotechnology

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THE SUPERIOR NANO MATERIAL: Nano Graphene Platelets (NGP) outperforms Carbon NanoTubes (CNT)

NanoBizExchange.com — Thu, 08 Jul 2010 06:26:33 +0000

The Nano Graphene Platelets (NGP) material discovered in 2004 has been studied for a number of years. It has many of the same characteristics as Carbon Nano Tubes (CNT) and other carbon particles; NGPs overall performance equals or exceeds most application performances when compared with any other Nano particles. Nano Graphene Platelets are also known as Graphene Nanoplatelets. Carbon Nano Tubes are also known as Carbon Nanotubes.

According to some studies, composites when infused with NGP are stiffer and less prone to failure than composites infused with carbon nano tubes or other nanoparticles. These gains are in the area of 1 order of magnitude.
When added to polymers, NGPs mechanical strength exceeds that of Carbon Nano Tubes (CNT). NGP and CNT can have similar functionalization or surface treatments to improve mechanical bonding and electrical characteristics. NGPs superior shape (grid like or fence shape) gives a better mechanical attachment than the CNT tubular shape, this unique shape gives NGP significantly higher strength, puncture and crack resistances, as well as excellent permeability barrier properties. These improved properties can be seen in a host of different materials.
Super capacitors can perform better when made with NGP. NGP based nanocomposite materials exhibit high levels of capacitance and electrical conductivity as well as demonstrating chemical stability and low mass density. The conductive film is superior because of the unique molecular shape of the particles, which can store more electrons than other known materials.
When adding 1% to 2 % NGP by volume to aluminum the electrical conductivity and strength are improved significantly.

By David Graber in association with Nano Enhanced Wholesale Technologies, LLC http://www.nano-enhanced-wholesale-technologies.com/

References and Additional Resources
Graphene Outperforms Carbon Nanotubes for Creating Stronger, More Crack-Resistant Materials by Professor Nikhil Koratkar April 26, 2010 http://news.rpi.edu/update.do?artcenterkey=2715
Angstron Materials Inc. http://angstronmaterials.com/

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