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UPN Ref Technology
83 High integrity, anti-corrosion and mechanical protection ultrathin coating that cures in seconds (No VOC, HAP, isocyanides, 100% solids)
A UV curable, high integrity sustainable system that can be used as a repair coating on existing coated surfaces or on carbon & stainless steel, aluminum, concrete, glass, fiberglass, plastics and more. Cures in 10 seconds or less upon application of UV lamp. This is a 100% solids liquid coating that does not contain solvents, VOC, HAP, isocyanides and can be customized to meet specific performance needs such as anti-corrosion, anti-fouling, anti-graffiti, chemical and mechanical resistance, flow assurance and more.
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64 Plasma Enhanced CVD Process
The technology saves energy and advances the range of substrates and coating materials accessible to Atmospheric Pressure (AP) Chemical Vapour Deposition (CVD) processes.
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63 Plasma Enhanced CVD Etching process
The technology saves energy and advances the range of substrates and coating materials accessible to Atmospheric Pressure (AP) Chemical Vapour Deposition (CVD) processes.
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55 Innovative process for the production of metal fluorides
A recently developed process to produce nanoparticles on the basis of metal-fluorine compounds. These metal fluorides offer new perspectives to a broad range of applications including coatings, ceramics and catalysts.
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54 Elastic fast swelling hydrogel
A fast responsive superporous hydrogel technology. The crosslinking is maintained by hydrolyzable diacrylate polymer and vinyl modified polypeptide. As these crosslinks break down, the material will start to fall apart and shrink. In addition, this superporous hydrogel is elastic (mechanically resilient) as it can be stretched more than 100% of its original size.
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49 Superhydrophobic & transparent nanocomposite based solution
A spray coatable solution (alcohol based) that can be applied to a wide variety of substrates, including glass and plastics with water contact angle above 150 degree and without any loss of transparency. The coating is highly stable up to 400°C in air and over extended UV exposure (over 1 million mJ/cm2 at 365 nm).
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39 Inorganic and organic nanofibrous materials
Novel nanofibrous materials have been developed such as ceramic nanofibers and organic nanofibers that have a plurality of applications.
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23 Making adhesives surfaces reversible
Thermo-expandable microspheres (TEMs), which consist of an outer shell of copolymer thermoplastic resin encapsulating a liquid hydrocarbon, when the heat trigger is applied at command the microspheres expand to over 100 times their volume, acting as a pressure activator to cleanly break the bond at the interface, and the cohesive structure. A key part of the patented technology is the functionalization of the TEMs surfaces, e.i. a conducting material is applied onto the polymeric shells of the microspheres. This additional layer enables quicker ways to get the heat to the TEM surface without damaging the material itself.
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6 Process for industrial production of nanoparticles using supercritical water process
The use of hydrothermal conditions allows the very fast synthesis of high added value nanoparticles from an aqueous solution of metallic salts. This technology has proven being very versatile versus composition, synthesizing very high quality NP at both lab and pilot scale, with high reproducibility.The process includes a wall-free mixing technology which brings stability of the reaction volume and allows a fully continuous operation of the production line.
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