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UPN Ref Technology
70 A safe, non-toxic, edible, organic nano-material for use in multiple applications
A safe, non-toxic, edible, organic, low-cost, nanomaterial that can be applied in many applications including: Personal Care, Cosmetics, Pharmaceutical, Nutraceutical, Agri-chemical and Food Products. The company's mission is to fulfill a rapidly growing global demand for eco-friendly polymers produced from sustainable sources that also enhance the performance of consumer products and provide new and unique properties.
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67 High performance polymeric raw material for adhesive films
A new innovative polymer which vinyl acetate content can vary between 40 and 90 percent. The technology has outstanding tack characteristics, remains elastic at low temperatures and shows excellent shear strength.
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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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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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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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