Available Technologies
# of Displayed Technologies: 8 / 8
Applied Category Filter (Click To Remove): Materials/Chemicals
Metal Matrix Composites Reinforced by High Entropy Alloys
TS-063364 — Experience the future of advanced materials—our metal matrix composites offer a revolutionary approach to meeting the demands of modern industries. Elevate your products, enhance performance, and reduce costs with our groundbreaking technology.
For a closely related technology, please visit https://oied.osu.edu/find-technologies and type "T2017-051" in the search field.
In the aerospace, defense, and automotive industries, there is a pressing demand for advanced materials that combine low weight, high strength, exceptional wear resistance, and superior high-temperature performance. Traditional methods using ceramic particles as reinforcements in aluminum matrix c…
- College: College of Engineering (COE)
- Inventors: Luo, Alan; Huang, Xuejun; Zhang, Jianyue
- Licensing Officer: Zinn, Ryan
Post synthetic incorporation of Ti into zeolite Beta via defect sites originating from methyl-silanes and its impacts on epoxidation and reduction reactions
TS-062968 — A novel method of creating catalytic material containing paired Lewis acids in combination with alkyl-metal precursors for improving the production of materials used in agricultural, chemical, and other commercial/industrial applications/processes.
More efficient techniques to create catalytic material are required to enable higher efficiencies and other performance improvements when used for manufacturing of specialty chemicals and other compounds. The conventional methods whereby Lewis acids play a role in catalysis has some key limitation…
- College: College of Engineering (COE)
- Inventors: Brunelli, Nicholas "Nick"; Spanos, Alex
- Licensing Officer: Randhawa, Davinder
Gas Sensors for Health Monitoring and Diagnostics
TS-047136 — A range of low-cost gas sensors for non-invasive diagnostic tests and health monitoring.
Exhaled human breath is a combination of hundreds of gases including inorganic molecules such as NO, NH3 or CO, and volatile organic molecules such as acetone, ethane, and isoprene. Some of these gases are produced by the body as the result of physiological processes. Known as ‘biomarkers&rs…
- College: College of Engineering (COE)
- Inventors: Gouma, Pelagia-Iren
- Licensing Officer: Schworer, Adam
Development of a Single Component Methacrylate Adhesive Formulation
TS-042066 — A novel hybrid adhesive that combines the non-toxic, high strength properties of methacrylate adhesives with the bonding characteristics of polyurethanes
Despite the utility of methacrylate adhesive chemistry, applications have been limited to industrial and biomedical use cases. This is due to the curing mechanism, which is initiated by either heat, light or a two-component redox system. This invention describes two strategies to create a single-c…
- College: College of Arts & Sciences
- Inventors: Parquette, Jonathan; Schricker, Scott
- Licensing Officer: Dahlman, Jason "Jay"
Alkyne Semihydrogenation Catalysts with High Z/E Selectivity from Hydrogen-Adsorbing Intermetallic Zintl Phases
TS-039012 —
Heterogeneous hydrogenation reactions are important industrial reactions, specifically the semi hydrogenation of triple C bonds to double C bonds. The standard catalyst, known as a Lindlar catalyst, that is used for this reaction is palladium nanoparticles on a CaCO3 substrate, poisoned with lead …
- College: College of Arts & Sciences
- Inventors: Goldberger, Joshua
- Licensing Officer: Panic, Ana
Development of Non-Foaming High Strength, Single Component Methacrylate/Polyurethane Adhesive
TS-037956 — A single component, moisture-cured methacrylate/polyurethane hybrid adhesive that combines the non-toxic, high strength properties of methacrylate adhesives with the bonding characteristics of polyurethanes
Methacrylate adhesives are strong and can be used on similar or dissimilar materials, such as plastic, metal, composites, and ceramic. They have excellent peel strength, resist abrasion, and stand up to a fair range of temperatures. They also require little preparation of the surfaces to be bonded…
- College: College of Arts & Sciences
- Inventors: Parquette, Jonathan; Bewick, Nicholas; Schricker, Scott
- Licensing Officer: Dahlman, Jason "Jay"
Method for Oil–Water Separation Using Nanoparticles and Binder
TS-037436 — A coating which repels oil and attracts water, creating a highly efficient separation technique.
Across numerous industries, such as oil and natural gas processing, liquid-repellent surfaces are often essential to product development, or even operational sustainability via equipment maintenance. Current liquid repellents are optimized to protect against all liquids, including oil and water (s…
- College: College of Engineering (COE)
- Inventors: Martin, Samuel; Bhushan, Bharat; Brown, Philip
- Licensing Officer: Zinn, Ryan
Method for Repellency of Surfactant-Containing Liquids Using Nanoparticles and Binder
TS-037423 — A surface coating which repels both oil and water.
Materials with a coating that repels both water and oil would be advantageous across a wide variety of industries and products. Benefits of this kind of coating could include antifouling, self-cleaning, and antismudging capabilities. While modern clear coats and paints do offer protectio…
- College: College of Engineering (COE)
- Inventors: Martin, Samuel; Bhushan, Bharat
- Licensing Officer: Zinn, Ryan
