| 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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| 62 | High performance vacuum insulation technology A next generation of vacuum insulation panel (VIP) technology. It combines the properties of microporous fumed silica insulation material with the benefits of vacuum insulation technology. In this manner, a very low thermal conductivity of < 5 mW/mK can be achieved. |
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| 57 | New processing technologies for high-performance thermoplastic composites The cost effective manufacturing processes enable automated production of high-performance thermoplastic composite parts and their joining into a geometric complex shape. |
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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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| 22 | New method for treating cellulosic materials A breakthrough technology to bring hydrophobicity to papers and boards and develop barrier materials. This patented technology proves to be perfectly suited to ligno-cellulosic materials in general and to papers/ boards in particular. It opens the door to innovations by making possible to waterproof papers, sustainable barrier materials while keeping biodegradability and recyclability. |
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| 3 | An innovative approach to make textiles electrically conducting A new process for the direct integration of solar cells onto textile fabrics. It has been accomplished in such a way that the process can be readily scaled up to production level. |
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