Technologies Available for Licensing

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UCF’s discoveries and innovative technologies create opportunities for a wide variety of industries. We encourage you to browse our list of available technologies and invite you to partner with us in bringing real-world applications to the marketplace.

Recent Technologies

Figure 1. An isometric, conceptual view of a toy bear with integrated data sensors.

Novel System for Capturing, Quantifying and Analyzing Therapy Interactions

33898 Innovation aids counselors in diagnosing and treating a child’s behavioral disorder using quantifiable evidence from play therapy sessions. UCF researchers have designed a system that mental health professionals can use to capture and track quantifiable data about a child’s development and behavior during therapy sessions. The Science of Play system works in real time, monitoring... Read More

New charge-tunable materials may offer bactericide, fungicide, rainfastness, and improved health properties that are customized for each crop type.

New Composition Offers Growers an Environmentally-Friendly Alternative to Over-Used Copper-Based Biocides

33981 Antimicrobial magnesium hydroxide nanoparticles safely and effectively protect tomatoes and other crops against disease and soil contamination University of Central Florida researchers have developed an environmentally-friendly alternative to copper (Cu)-based biocides, which are commonly used to treat plant diseases caused by bacteria, fungi or viruses. Plant diseases make up 10-16... Read More

Figure (a) shows a schematic representation of chiral light-matter interaction between left-circularly polarized (LCP) and (s) enantiomer; (b) shows a top view of one uncoated sample and cross-section view of one polymer-coated substrate embedding the chiral molecule; (c) shows a representation for the optical characterization.

Molecular Chirality Detection Technique using Hybrid Plasmonic Substrates

33902 System offers low-cost methods for efficiently and accurately detecting low levels of left- and right-handed enantiomers of drugs seeking FDA approval University of Central Florida researchers have designed a system that can accurately identify the chirality of drugs, proteins, DNA and other molecules at lower detection limits than conventional detection systems. With the ability to... Read More

Graph of the June average day profile of an FSEC simulation using the SVC invention.

Weather-Responsive Smart Ventilation System Using Multiple Parameters

33948 New whole-house mechanical ventilation controls enhance HVAC systems to provide homeowners with added energy savings and indoor air comfort UCF researchers have developed a smart ventilation system that can be used with new or existing residential heating and cooling systems to improve indoor air quality, reduce costs and save energy. Most ventilation control systems are simplistic, using... Read More

Chemical Sensor with Real-Time, Remote Detection Capabilities and 3D Output

33957 New detection system can scan gas mixtures from a distance and provide quantifiable data about specific chemicals in the mixture. Researchers from UCF and the United States Navy have invented an optical detection system designed to identify and quantify the chemicals in a gas mixture from a distance and in real time. The new system can provide a 3D mapping/readout of the mixture’s... Read More

New UCF optical nanocomposite material can be drawn into fiber form, dissolved into a solution and deposited as a thin film, or used as a bulk optical component.

Unique Nanocomposites for Fiber- and Planar-Infrared Laser Applications

33951 Glass-nanocrystal material can be made into optical fibers, thin films and bulk optical elements. UCF researchers have invented a low loss optical nanocomposite material made of glass and high concentrations of nanocrystals (NCs). Unlike conventional crystal laser media, the new glass ceramic medium can be drawn into fiber, coated onto films, deposited as waveguides or formed as bulk... Read More

Amino Acid Import Inhibitors as Antiproliferative Agents

33949 New compounds that focus on depriving cells of key nutrients may be useful as anticancer and anti-infective agents. Researchers at UCF and the Torrey Pines Institute for Molecular Studies have identified new compounds to inhibit the growth of human cancers and parasitic infections through nutrient deprivation. The compounds inhibit the import of large neutral amino acids such as leucine... Read More

Non-Polyamine-Based Polyamine Transport Inhibitors to Treat Cancer and Infectious Diseases

33850 Novel PTIs help block escape pathways of cancers treated with polyamine biosynthesis inhibitors like alpha-difluoromethylornithine (DFMO). Researchers at UCF and Sanford Burnham Prebys Medical Discovery Institute (SBPMDI) have identified novel non-polyamine-based polyamine transport inhibitor (PTI) compounds to treat cancers with high polyamine requirements. Since the compounds are not... Read More

Figure 1. Example of a flexible solar cell fabricated using the new UCF light trapping invention.

Omnidirectional, Polarization-Independent, All-Dielectric Light Trapping Scheme

33979 Novel biomimetic design approach enables manufacturers to cost-effectively produce ultrathin, flexible, durable solar cells that capture the most energy from daylight as it strikes from multiple directions. UCF researchers have developed a novel architecture and process for producing low-cost, ultrathin, flexible and durable solar cells that can be easily fabricated using roll-to-roll... Read More

Antimicrobial Compositions for Treating Clostridium Infections

33842 New methods using puupehenone compounds may kill or prevent Clostridium difficile infections. A UCF researcher has developed new methods for using puupehenone compounds to possibly treat illnesses caused by Clostridium bacterial strains, such as C. difficile. Puupehenone is a marine natural product excreted by some species of sponges and coral as a defense mechanism. The UCF invention may... Read More

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