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
New technologies delivered to your inbox Subscribe
Browse by Collection
Browse by Category
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
MEMS Piezoelectric Resonant Accelerometer for Low-Cost, Wireless Detection
34077 – New passive accelerometer design enables the development of wireless, lightweight movement sensors for industrial and consumer uses, including smart, Internet of Things products in healthcare, lifestyle and defense applications. Researchers at the University of Central Florida have designed a wireless sensor that can accurately detect and transmit an object’s acceleration or vibration... Read More
Cost-Saving Electro-Optic Comb Generator Uses Its Own Internal Radio Frequency Source to Produce Tunable Broadband, Widely-Spaced Frequency Combs
34056 – New architecture’s ability to generate 52 individual electro-optic comblines across 5 nanometers offers improvements in optical communications and signal processing. Researchers at the University of Central Florida have developed a unique architecture for an electro-optic modulation (EOM) tunable comb generator that combines a photonically filtered optoelectronic oscillator (OEO) with a... Read More
New Quantum Cascade Laser Design Provides Greater Efficiency and Power for Broad-Area Applications
33908 – QCL design enables the development of compact infrared countermeasure systems that can protect aircraft against next-generation portable surface-to-air missiles. Researchers at the University of Central Florida have designed a compact, lightweight quantum cascade laser (QCL) that can maintain beam quality and protect against laser facet damage while achieving more than 30 watts of optical... Read More
4D Biosensors for Lab-On-A-Chip and Wearable Sensor Applications
34078 – Innovative 4D biosensor technology with shape-memory recovery enables integration with implantable systems for electrical measurements. Researchers at the University of Central Florida have developed a novel 4D biosensor for lab-on-a-chip and wearable sensor applications that is more cost-effective and easier to manufacture than current technologies. Made of dynamic, stretchable, packaged... Read More
Multiple Line-Scanning Confocal Fluorescence Microscope Offers 3D Single-Molecule Imaging that Minimizes Photobleaching and Photodamage
34128 – Device enables high-resolution, real-time, gentle imaging of single-molecule RNA in mammalian cells. Researchers at the University of Central Florida have developed a line-scanning confocal fluorescence technology that scientists can use to capture high-resolution, 3D, live-cell images while minimizing the effects of photobleaching and photodamage to target molecules. By providing a... Read More
Highly Inclined Swept Tile (HIST) Microscope for Advanced Real-Time, Single-Molecule Imaging
34127 – New fluorescence microscopy system enables super-resolution imaging of single molecules across a 40x wider field of view. Researchers at the University of Central Florida have invented a fluorescence microscope that provides better real-time imaging of single molecules than conventional fluorescence technologies such as HILO (highly inclined and laminated optical sheet) microscopy. By... Read More
A Compact, Bright, and Broadband Light Source for Calibrating the Spectral and Spectral Power Density of an Optical System
34055 – Novel method provides plug-and-play capabilities for easily calibrating laser-induced breakdown spectroscopy (LIBS) optical systems. Researchers at the University of Central Florida have developed a novel plug-and-play technology for calibrating optical systems such as laser-induced breakdown spectroscopy (LIBS) or Raman spectroscopy systems. A compact, bright and broadband (180 nm... Read More
Tactile Display Apparatus for Palpation Simulation and Telemedicine
34063 – Innovative training device enables medical students to experience the near-real sensation of touch, similar to human palpation. Researchers at the University of Central Florida have designed a haptic training device that medical students can use to better distinguish between normal and abnormal lumps in the body. By providing the sensation of touch and the ability to vary the size and... Read More
Low-Cost Lithium Battery Cell Uses a Unique Semi-Liquid Metal Buffer to Prevent Dendrite Growth
34036 – Battery cell’s novel coating stabilizes lithium metal surfaces, enabling the development of next-generation energy storage technologies such as lithium-air and lithium-sulfur batteries. Researchers at the University of Central Florida have developed an inexpensive battery cell that overcomes the safety hazards, performance problems and capacity loss associated with using lithium metal as... Read More
New Approach for Determining Nanomaterial (NM) Biodistribution in the Body Offers an Alternative to Animal Testing
34037 – System with predictive computer modeling enables nanomaterial drug screening tests that effectively measure NM-cell interactions in vivo. Researchers at the University of Central Florida have developed a new system to quantify and accurately predict the biodistribution of nanomaterials (NMs) in the body, reducing the need for animal studies. Using a novel quantitative fluorescence-based in... Read More