Office of Technology Commercialization (OTC) Menu
- Technology Transfer Process
- Technologies Available for Licensing
- Research Insights
- UTRGV Inventors
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UTRGV Technologies
- Chemical Synthesis Methods And CDDO/CDDO-EA Preparations
- Method For Inhibiting Weight Gain And Skeletal Muscle Inflammation
- Systems and Methods for Image Segmentation in N-Dimensional Space
- Methods For Acetylene/Gas Storage Using Metal-Organic Framework
- Phytoestrogen Metabolites From Human Urine
- Polyolefin Fibers For Skin Regeneration And Implant
- Microchannel Scaffolds And Microtube Electrodes For A Neural Interface System
- 4-(5-Fluoropyridin-2-Yl)-2azetidinones To Fight Against Drug-Resistant Pancreatic Cancer
- Biocompatible Adhesive Polymer Blends
- FOXO1 Inhibition With AS1842856 As A Chemotherapeutic For Glioblastoma Multiforme And Basal-Like Breast Cancer
- Materials And Methods For Nanodisc Based Targeted Anti-HIV Drug Delivery
- Wireless Sensors In Injection Molds
- Wave Energy Converter
- Tremor Cancellation Pen Holder
- Optical Multilayer Refractive Index Near Zero Metamaterials
- TESTEC: A Cost Effective And Self-Sustainable Triboelectric Energy Case For Powering Smart Electronic Devices
- An Ocean-Based And Nature-Powered Desalination System
- Recycling Container For Expanded Polystyrene
- Methods For Production Of Fluoropolymer Fibers
- A Process Model For Selective Laser Alloying
- Microporous Metal-Organic Framework Materials For Sensing And Separation Of Gas Or Solvent Molecules
- Lithium Battery Cathode
- Method And Use Of Ceramic/Carbon Composite Nanofibers As Anode Materials For Lithium-Ion And Sodium-Ion Batteries
- Facile Method To Produce Carbon Fibers Through Acid Vapors
- Method Of Producing Doped/Composite Carbon Fibers
- Development Of Mechanoluminescent Polymer Doped Fabrics
- Scalable And Facile In Situ Synthesis Of Nanoparticles Resulting In Decorated Multifunctional Fibers
- Functional Materials In Photonics And Energy
- Handheld/Portable Apparatus For The Production Of Fine Fibers
- Triboelectric Nano-Device For Human Health Monitoring Including Vocal Cord Characterization
- Handheld/Portable Apparatus For The Production Of Fine Fibers (Microfibers, Submicron, And Nanofibers)
- Therapeutic 3D Nanofiber Membrane Prepared By Forcespinning
- Start-Ups
Technologies Available for Licensing
Investigating, creating, protecting, and commercializing research and intellectual property (IP) is a means to benefit the University, the research and academic environment, and the State of Texas and its residents, as well as researchers and business partners.
The process for developing and moving a new technology out of the University and into a commercial product requires input from both intellectual property (IP) and business professionals. This process is iterative, and success requires the creator’s involvement well beyond the lab or workstation.
The process of investing begins with selecting a technology of interest:
Other agreements, such as sponsored research agreements, grant agreements, or memoranda of understanding may have provisions in them that have to do with intellectual property, and the Office of Technology Commercialization should be consulted on those provisions.