NEC Corporation today announced the successful development of a carbon nanotube (CNT) transistor using a coating process. The basic operation of the new transistor with advanced characteristics has been verified, confirming its application in the printed electronics field.
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Two Nanostructures Are Better Than One
Imagine using minuscule structures the size of molecules to harvest sunlight and convert it into electricity. Or employing the same structures to store hydrogen fuel so that it fits into a car’s gas tank. Or replacing today’s semiconductors with these structures, ushering in the next generation of small, powerful electronics.
Researchers Shatter World Records with Length of Latest Carbon Nanotube Arrays
University of Cincinnati engineering researchers have developed a novel composite catalyst and optimal synthesis conditions for oriented growth of multi-wall CNT arrays. And right now they lead the world in synthesis of extremely long aligned carbon nanotube arrays.
Researchers develop bistable nano switch
Carbon nanotubes (CNT) have been under intense study by scientists all over the world for more than a decade and are being thought of as ideal building blocks for nanoelectromechanical systems (NEMS). A type of one-dimensional structure with high-aspect ratio, carbon nanotubes have emerged as a promising material because of their many impressive mechanical, electrical and chemical properties.
Motorola Debuts First Ever Nano Emissive Flat Screen Display Prototype
Building Upon Carbon Nanotube Technology, Motorola Prepares to Revolutionize the Flat Panel Display Industry
Motorola Labs today unveiled a working 5-inch color video display prototype based on proprietary Carbon Nanotube (CNT) technology – a breakthrough technique that could create large, flat panel displays with superior quality, longer lifetimes and lower costs than current offerings. Optimized for a large screen High Definition Television (HDTV) that is less than 1-inch thick, this first-of-its kind NED 5-inch prototype harnesses the power of CNTs to fundamentally change the design and fabrication of flat panel displays.
NEC Realizes Control of Position & Diameter of Carbon Nanotube
Technology that contributes to electronic devices utilizing carbon nanotubes
NEC Corporation today announced the development of a diameter/position-controlled
carbon nanotube ("CNT") growth technique that is based on conventional electron beam ("EB")
lithography. This technique will provide a practical method for controlling the position and diameter of each CNT. NEC expects this result will promote the research and development of high-performance CNT electronic devices.
Sweet nanotech batteries: Nanotechnology could solve lithium battery charging problems
Nanotechnology could improve the life of the lithium batteries used in portable devices, including laptop computers, mp3 players, and mobile phones. Research to be published in the Inderscience publication -
International Journal of Nanomanufacturing - demonstrates that carbon nanotubes can prevent such batteries from losing their charge capacity over time.
Scientists produce carbon nanotubes using commercially available polymeric resins
Scientists at the Naval Research Laboratory (NRL) have successfully produced carbon nanotubes (CNTs) in high yields in bulk solid compositions using commercially available aromatic containing resins. The concentration of multi-walled carbon nanotubes (MWNTs) and metal nanoparticles can be easily varied within the shaped carbonaceous solid.
Shear Ingenuity: Tweaking the Conductivity of Nanotube Composites
One of the immediate applications of carbon nanotubes (CNT) is as an additive to polymers to create electrically conducting plastics—a relatively low CNT concentration can dramatically change the polymer‘s electrical conductivity by orders of magnitude, from an insulator to a conductor.