- [nanoPost] Nanoelectronic devices
It is generally believed that continued scaling of CMOS technology will eventually reach a “brick wall” as the device size approaches a few nanometer scale.
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- [nanoPost] Nanostructures and nanolayers
Developing and fabricating nanostructures and nanolayers for advanced optoelectronic and non-semiconductor applications using ion-beam synthesis.
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- [nanoPost] Atomic Layer Deposition (ALD) systems for many coating applications
The principle of ALD is based on sequential pulsing of special precursor vapors, both of which form about one atomic layer each pulse.
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- [nanoPost] Buckytubes
The company can supply grades of Buckytubes tailored for specific industrial applications. These grades have different primary (molecular), secondary and tertiary particle features, including various purities, morphologies, chemical functionality, thermal stability, electrical conductivity and other application driven nanotube properties.
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- [nanoPost] Single-Walled Nanotubes
The company's SWNT consists of single-walled, closed-ended, carbon nanotubes, which are made by Arc Method in specifically designed chambers.
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- [nanoPost] Thermally hyper-conductive diamond/carbon/carbon composite
The company has developed a thermally hyper-conductive diamond/carbon/carbon composite (DCC). DCC is VGCF/carbon composite that is coated and partially infiltrated with a polycrystalline diamond film.
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- [nanoPost] Nanospheres and nanotubes made from inorganic compounds
Advanced solid lubricants for maintenance-free operation in applications such as aerospace, heavy equipment, and military markets.
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- [nanoPost] Ultrananocrystalline diamond
Diamond is nature's perfect material. It is the hardest known substance on Earth. It can be polished to be very smooth, and it has a coefficient of friction similar to that of Teflon®. It is chemically inert, naturally repels water and is an outstanding electrical insulator.
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- [nanoPost] Organic thin-film technology for the enhancement of microelectronic components
The company is developing an organic thin-film technology for the enhancement of microelectronic components targeted at flat panel display and semiconductor manufacturers.
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- [nanoPost] Photonic Emitters and Circuits based on Colloidal Quantum Dot Composites
The group are interested in the development of a library of nano/micron-scale photonic building blocks that will help in the realization of quantum information processing (QIP) in the optical domain.
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