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

Novel Compounds to Treat Malaria May Also Alleviate Parasite Drug Resistance

32882 New Marine-Based Compounds and Aurora Kinase Inhibitors May Effectively Combat Malaria UCF researchers have identified new compounds that may treat malaria infections more effectively than current anti-malarial drugs.  The malaria parasite, Plasmodium falciparum, has developed resistance to most anti-malarial treatments, including chloroquine and artemisinin. Since the UCF anti-malarial... Read More

Fabrication and Characterization of 3D Printed, 3D Microelectrode Arrays (MEAs) with Spin-Coated Insulation and Functional Electrospun 3D Scaffolds

33871 New MEA Fabrication Technology Enables the Development of Rapid Assays with 3D Cell-Based Biosensors for Toxicity Testing, Disease Modeling and Optical/Electrical Stimulation of Cell Types Exploded view of the 3D MEA: 3D microtowers, metallization, laminate insulation and containment culture well with a close-up of 10 recording sites per patch. Fully functional for “disease in a... Read More

(a) Schematic of few-mode Erbium-doped fiber amplifier, CL: collimating lens, FMF: few-mode (FM) fiber, EDF: Erbium-doped fiber, MO: microscope objective, DM: dichroic mirror. (b) Erbium-doped few-mode fiber cross-section.

New LIDAR Receiver Architecture Boosts Signal Quality at Lower Cost

33950 Few-Mode Preamplified Receiver Design Improves LIDAR Performance in Autonomous Vehicles UCF researchers have developed an innovation in remote sensing technology that may help speed the large-scale deployment of LIDAR (light detection and ranging) in autonomous vehicles. With its novel few-mode (FM) preamplified receiver architecture, the new UCF LIDAR system has demonstrated a... Read More

Results of an experiment using a set of nodes in a wireless mesh network with DSM and a conventional routing approach (without DSM). As the red graph line of the non-DSM approach shows, an increase in the demand for a video increases lag time and makes the video essentially unwatchable.

Low-Cost Data Merging Technique Significantly Reduces Internet Video Traffic

33560 Unique method enables Tier 1 internet service providers (ISPs) and large content providers to conserve network resources while distributing streaming content on demand without crashes, interruption or delays A UCF researcher has developed a distributed video routing method that can streamline a network’s internet traffic, even during times of unexpected high demand for data. Unlike current... Read More

Figure 1. Schematic view of the imaging operational concept.

Cost-Effective Imaging System Uses RF Magnetic Field and Loop Bolometer Array to Produce MRI-Quality Images

33853 New System Can Generate Detailed Images of Internal Body Structures and Identify Defects Embedded in Electronic Circuits UCF researchers have designed a new imaging system that captures detailed, 3D views of an object’s internal structures and is more affordable, compact and transportable than other systems. The invention is safe to use for both medical and scientific applications, since... Read More

Genetic Markers and Therapeutic Targets for Diagnosis and Treatment of Rheumatoid Arthritis

11283 Newly identified association between single nucleotide polymorphisms and intestinal bacteria in rheumatoid arthritis patients may provide new approaches for treatment Rheumatoid arthritis (RA) is a chronic inflammatory disease that has been linked to infectious agents such as the bacteria, Mycobacterium avium subspecies paratuberculosis (MAP). While the exact cause of RA is unknown,... Read More

Figure 1. Illustration of the new vehicle detection system with RFB technology alerting a wrong-way driver. Courtesy of the Central Florida Expressway Authority.

Wrong-Way Driver Detection Technologies can Help Prevent Head-On Collisions

33441 New systems leverage vehicle and roadside technologies to thwart head-on collisions caused by wrong-way drivers Researchers at UCF and the Central Florida Expressway Authority (CFX) have patented methods for systems that help prevent head-on collisions when drivers wrongfully enter roadways. The technologies (UCF IDs: 33441, 33714, and 33716) can be used to alert and stop wrong-way drivers... Read More

CMAS infiltration and reaction in a 7YSZ thermal barrier coating

Non-Destructive Optical Test to Detect Damage in Turbine Blades

33851 A novel non-destructive characterization test to inspect for particulate infiltration and damage to turbine thermal or environmental barrier coatings Researchers at UCF and the German Aerospace Center (DLR) have invented a new, non-destructive optical test to identify whether thermal or environmental barrier coatings on components have been infiltrated with particulates, such as dust, sand... Read More

Diagram (a) illustrates the new UCF 3D-printing technique used to produce 3D-printed porous scaffolds for cell culture. Image (b) shows the honeycomb design of scaffolds and the actual appearance of scaffolds with different processing routes after recovery from a gelatin bath. Recovered prints were immersed in cell culture media to reveal pore formation with the existence of bubbles inside the struts. Scale bars are 10mm.

3D-Printing Technique for Creating Biomaterial Structures with Tailored Hierarchical Porosity

33859 Novel printing technique enables the production of custom porous 3D printed biomaterial scaffolds UCF researchers have developed a new 3D printing technique to produce biomaterial scaffolds with controlled porosity. This technique enables the design and production of 3D printed structures with pores throughout the scaffold, providing additional sites for seeded cells to adhere and grow. ... Read More

Prostate cancer C4-2B cells on different stiffness CA scaffolds. Mineralizationincreases with stiffness.

3D Biomaterial Scaffolds Mimic Tumor Microenvironment and Enable Drug Screening for Personalized Cancer Therapies

33849 New 3D biomaterial scaffold enables testing of chemotherapies before administering to patients Researchers at UCF and the Mayo Clinic are developing a diagnostic tool for predicting patient outcome in response to a particular cancer treatment. The tool consists of biomaterial scaffolds that mimic the in vivo 3D structure of the tumor microenvironment and can be used as an in vitro platform... Read More

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