Sets a standard for a whole new product class that was never seen before. “The unique combination of technical propertiesĭrastically improve any known material’s properties even if added in very-low quantities. Significant improvements in performance of theseĪnd other materials are observed upon the addition of 0.001%-0.1% weight of TUBALL Rubber material, metals, batteries, transparent conductive films and many others. Serve as a first universal additive, enhancing mechanical strength and the thermalĪnd electrical conductivity of materials, such as composites, polymers, Numerous laboratory and industrial tests proved TUBALL The content of free metal particles does notĮxceed 1%. The output, ‘as produced,’ will be sold under the brand name TUBALLĪnd more of top quality SWCNTs, with all impurities of catalyst particlesĮncapsulated in carbon shells. Specifications, images, and prices are on the individual product pages. OCSiAl helps make nanotechnology applicable for manyĬompanies desperate for a commercially viable materials innovation,” We provide small research quantities up to large industrial quantities of multi walled carbon nanotubes products. SWCNTs were only available in small quantities at sky-high prices, and quality Use of SWCNTs could open the door to fundamentalĬhange in many industries, but there has always been an invincible obstacle: OCSiAl nanomaterials into their products. The world’s first nanotechnology company, Of SWCNTs, allowing literally unlimited output and unrivalled low production In plasma chemistry and physics, combining to produce high-performance synthesis The current technologies, OCSiAl’s production method rests on notable findings Synthesis process was made at the Institute of Materials, Minerals and Miningīy OCSiAl spokesmen Yuri Koropachinskiy, President, and Mikhail Predtechenskiy,Ĭhief Technology Officer and inventor of the new synthesis method. The products the world relies on, from better batteries to more durable tyres. The quality of the end product, OCSiAl technology is poised to improve many of With this production volume and ultimately SWCNTs usually can come together and form bundles (ropes). This method is easily scalable and capable of producing an unlimited Figure 1 Full size image Carbon nanotubes: structure and properties On other hand, SWCNT diameters differ from 0.4 to 2 to 3 nm, and their length is typically of the micrometer range. Potential annual capacity of OCSiAl production is currently 10 World, continue to hold the promise to usher in a new era of materialsĮstimated production of the SWCNTs is 1 ton for the first year, which doubles current global production levels according to different estimates. Nanomaterials, studied by thousands of researchers and companies around the Scale, commercial productionof SWCNT for the first time. Production of single wall carbon nanotubes (‘SWCNTs’), which enables large OCSiAl today unveiled a breakthrough technology for the
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