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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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59 Unique nanofiber production method
A technology that enables nanofibers to be produced at a much higher rate than conventional electrospinning. The process enables new applications for nanofibers.
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51 Photochromic polymers for human uses
The proposed technology consists of new photohromic polymers developed by using novel photochromic naphthopyrane derivatives. These polymer materials are safe and biocompatible.
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19 Antimicrobial urological catheter attachment
A device and method clinically proven to effectively control or prevent biofilm formation resulting from Urinary Tract Infection (UTIs) caused by urinary catheterization (CAUTI).
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17 Unique Biomaterial for Regenerative Medicine & Bioresorbable Implants
A bioresorbable polymer with versatile morphologies (e.g. size, shape and form) and precisely controllable dissolution rate for medical applications such as soft- and hard tissue regeneration, and for surgical implants.
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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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5 New method of encapsulation
Metal oxide micelles modified with organic ligands on the surface have been prepared. The ligands applied in sol-gel synthesis of inorganic materials are hydrophobic ones such as carboxylate or phosphonate groups. Positively charged micelles are attracted to the negatively charged cell membrane surface, are discharged and coalesce to form a continuous shell. This unique bioencapsulation method covers also the approaches for chemically or biochemically controlled release of the bioactive components, tissues or organisms from said particles.
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