UCF Office of Research
Office of Technology Transfer
|
12201 Research Parkway, Suite 501 |
Orlando, FL 32826
Phone: 407.882.0340 | Fax: 407.823.3299
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
Method and Device for Pathogen or Antibody Detection Using Unmodified Signaling Substances With or Without Unlabeled Detection Reagents
11472 – The University of Central Florida invention relates to methods for detecting a target pathogen or antibody in biological samples. The disclosed methods include three embodiments and do not require labeling or conjugating of the detection reagent with the signaling molecule or substance to generate detectable signals. The first embodiment relates to using an unlabeled antibody... Read More
A 3D Printed, Self-Insulated, High-Throughput 3D Microelectrode Array
11591 – The University of Central Florida invention is a novel two-step, makerspace-based microfabrication strategy for creating high-throughput (HT), self-insulated 3D microelectrode arrays (MEAs). Microstereolithography (μSLA)-based 3D printing technology not only allows for the realization of 3D microelectrode geometries but also enables the monolithic integration of all components of... Read More
Photonic Integrated Circuit Outcoupling Array for Imaging-Based Beam Steering
11449 – Researchers at the University of Central Florida have invented a photonic integrated circuit (PIC) array device that can provide the emitter and detector array capabilities that imaging-based beam steering (IBBS) systems need to achieve high-resolution, dynamic beam steering over a wide field-of-view (FOV). The UCF invention, which includes an IBBS system design, offers a passive,... Read More
Coat Zinc Selenide Particles with Functional Thin Films for IR Optics
11644 – The University of Central Florida invention is a processing technique to coat ZnSe (an IR transparent material) particles with an atomically thin functional film. For fabricating optical components such as optical fibers, a high-temperature melting process is used in which the base matrix and the ZnSe powder are mixed and heated past the melting point of the matrix. This important... Read More
Ultra-Spectrally Selective THz Band Stop Reflector
11645 – The University of Central Florida invention is a device that can inhibit the reflectance of electromagnetic radiation in the THz frequency range. It is characterized by a combination of material and geometric parameters that are unique and tunable—enabling resonating frequencies (spectral selectivity) in the THz range (0.1-25) with narrow channel widths (FWHM) controllable by the... Read More
Load-Modulated Balanced Amplifiers
11637 – The University of Central Florida has invented two kinds of load-modulated balanced amplifiers: 11636
Complex Refractive-Index Imaging by Iterative Optical Diffraction Tomography
11459 – Researchers at the University of Central Florida have invented a technique for capturing and reconstructing images of phase objects with greater accuracy and quality than conventional optical diffraction tomography (ODT) inversion methods. Example objects include transparent samples such as biological cells, tissues and optical fibers with high contrast, complicated structure, or... Read More
Attention-Based, Multi-Scale CNN Algorithm for Automated Road Condition Assessment
11623 – The University of Central Florida invention is a novel deep learning algorithm for automated (segmentation and classification of objects) road or pavement condition assessment. The A+MCNN has the following two unique features:
Optoelectronic Synapse for Neuromorphic Computing
11593 – The University of Central Florida invention is a method to grow organic‐inorganic halide perovskite quantum dots (PQDs) directly on multi‐wall CNTs (MWCNTs) to increase the photosensitivity of optoelectronic synapses. The perovskite quantum dot-multiwall carbon nanotube (PQD‐MWCNT) hybrid material acts as an optoelectronic synapse for optoelectronic neuromorphic computing.... Read More
Non-Phytotoxic Adjuvant Improves Rainfastness and Sustained Release of Streptomycin
11592 – The University of Central Florida invention is a novel non‐phytotoxic zinc sulfide (ZnS) nanoparticle-based adjuvant that demonstrates improved rainfastness and sustained release of streptomycin. Recently, streptomycin sulfate (65.8 percent active ingredient) has been labeled for suppression of Huanglongbing in Florida. The active ingredient is water-soluble and therefore suffers... Read More