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34381 – The University of Central Florida invention comprises a low cost, simple deep‐dyeing method that can convert a polyethylene terephthalate (PET) polymer matrix into ultra‐stable luminescent perovskite‐polymer composites (PPCs) which have excellent color tunability, color purity, and water‐/photo‐stability. The achieved PPCs can be used in displays, solid‐state lighting or other... Read More
34352 – The University of Central Florida invention comprises a method to produce efficient, cost-effective, and bifunctional (that is, anodic and cathodic) catalysts for water electrolysis applications. For example, hydrogen and oxygen generation from alkaline solutions, deionized water, and seawater. Current hydrogen production results from steam methane reforming and coal gasification,... Read More
34368 – The University of Central Florida and the University of Texas Health Science Center have developed technologies for genetic genealogical discovery in genotype databases: 33799
11539 – The University of Central Florida invention describes a method to extract lunar water, drastically reducing the energy and complexity of lunar mining operations helping to establish this industry. The process consists of robot mining of the regolith (loose, heterogeneous superficial deposits covering solid rock), transferring the mined material to a conveyer and passing the soil... Read More
34329 – The University of Central Florida invention relates to methods for inhibiting the expression of the “stemness” genes, NANOG/P8 and OCT4 in Glioblastoma Multiforme cancer stem cells. Short hairpin RNAs (shRNAs) were specifically designed to inhibit the expression of NANOG/P8 or OCT4 and were delivered by lentiviral transduction. Exosomal delivery of the shRNAs is currently in... Read More
34396 – The invention relates to an adversarial learning technique for identifying rogue RF transmitters and classifying trusted ones by designing and implementing generative adversarial nets (GAN). Understanding and analyzing the radio frequency (RF) environment have become indispensable for various autonomous wireless deployments. Machine learning techniques have become popular as they can... Read More
34429 – Researchers at the University of Central Florida have developed a simple, inexpensive solution for fabricating 3D metal microelectrode arrays (MEAs) and microneedle platforms. Compared to current technologies, the UCF makerspace technology overcomes issues such as brittleness, high expense, complexity, and unrepeatable processes. As a result, the invention offers cost-... Read More
34374 – The University of Central Florida invention is a novel way of generating optical properties within and at the surface of a voxel data structure. The structure is derived from mesh-based 3D models, controlled by standard UV texture mapping, and a combination of texture types for use in additive manufacturing. The purpose of the invention is to alter the makeup of a 3D-printed model... Read More
34371 – The University of Central Florida invention relates to the development of biomaterial substrates known as frozen films. The frozen films are highly porous thin films with micron-scale porosity and fibrous struts. The frozen films are expected to be compatible with high-throughput screening systems used by pharmaceutical companies and biotech companies for pre-clinical drug... Read More
33838 – The University of Central Florida invention demonstrates a liquid crystal-plasmonic system that covers the full red-green-blue (RGB) color basis set, only as a function of voltage, for the first time. Nematic liquid crystals are long rod‐shaped molecules that have extraordinary properties, most importantly: long-range order and alignment with an electric field. This allows liquid... Read More