Available Technologies

# of Displayed Technologies: 5 / 5

Applied Category Filter (Click To Remove): Other

Categories

Sacrificial Layer to Facilitate Welding of Thin Foils

TS-065430 — Cost-effective method to prevent damaged electrodes when welding thin foils.

Manufacturing of automotive lithium-ion batteries and battery packs is attracting growing attention with the driving demands of electric vehicles. During battery assembly, multi-layers of metal films, functioning as anodes, cathodes, or bus-bars are welded together. Achieving satisfying weld quali…

College: College of Engineering (COE)
Inventors: Liu, Xun; Kwon, Ho; Shah, Umair
Licensing Officer: Ashouripashaki, Mandana

Containment System for Heating and Off-Gassing

TS-065424 — Due to environmental concerns and the decreasing supply of fossil fuels, there is substantial demand for nuclear-based energy production. Nuclear energy now provides about 10% of the world's electricity from about 440 power reactors and is the second largest source of low-carbon power. In addition, over 50 smaller countries utilize nuclear energy in about 220 research-size reactors. These reactors are used to produce medical and industrial isotopes and several other purposes.

It is essential to meet the safeguard requirements in liquid-fueled molten salt reactors, fuel salt transportation, and fuel cycle processes and to develop effective methods for measuring and monitoring the mass of molten fuel salt or coolant salt. However, due to the complex and dynamic nature o…

College: College of Engineering (COE)
Inventors: Van Zile, Matthew; Cao, Lei Raymond; Kauffman, Andrew
Licensing Officer: Ashouripashaki, Mandana

Fluidic Oscillators with Frequency-Synchronized Sweeping Jets

TS-055653 — Embark on a new era of synchronized flow control with our fluidic oscillator array utilizing frequency-synchronized sweeping jets. Experience unmatched precision, adaptability, and efficiency in your engineering endeavors. Revolutionize your industry with our innovative solution, driving progress through synchronized fluidic innovation. This inventive technology T2018-051 is just one part of a larger, comprehensive suite of fluidic oscillator technologies offered by The Ohio State University for licensing. To learn more about our other designs, please visit https://oied.osu.edu/find-technologies and search using the term: Fluidic Oscillator. To see a descriptive YouTube video of this technology, please visit: https://www.youtube.com/watch?v=g2Hn2q5W958.

In the evolving landscape of fluid dynamics, a critical need arises for precise flow control in large-scale applications such as aerodynamics and environmental engineering. Existing fluidic oscillators, though innovative, face synchronization challenges when deployed in arrays, limiting their effe…

College: College of Engineering (COE)
Inventors: Tomac, Mehmet; Gregory, James "Jim"
Licensing Officer: Ashouripashaki, Mandana

Fluidic Oscillators with Variable Sweep, Tilt, and Inclination as well as Adjustable Frequency

TS-055514 — Embark on a new era of fluidic control with our state-of-the-art fluidic oscillator technology with variable sweep, tilt, and inclination control as well as adjustable frequency. Experience unmatched precision, adaptability, and efficiency in your fluidic applications. Stay ahead of the curve and revolutionize your industry with our innovative solution. This inventive technology T2018-041 is just one part of a larger, comprehensive suite of fluidic oscillator technologies offered by The Ohio State University for licensing. To learn more about our other designs, please visit https://oied.osu.edu/find-technologies and search using the term: Fluidic Oscillator. To see a descriptive YouTube video of this technology, please visit: https://www.youtube.com/watch?v=g2Hn2q5W958.

In the realm of fluidic engineering, a pressing demand exists for a fluidic oscillator that surpasses the limitations of traditional devices. Current fluidic oscillators struggle with fixed frequencies and sweeping angles, hindering their adaptability to diverse applications. Industries require a …

College: College of Engineering (COE)
Inventors: Tomac, Mehmet; Gregory, James "Jim"
Licensing Officer: Ashouripashaki, Mandana

Capacitive Sensing Method for Integrated Circuit Identification and Authentication

TS-048641 — A method of authenticating an IC die’s origin and uniquely identifying each die with an intrinsic unclonable value through measurement of on-chip capacitance values

Hardware security in Integrated Circuit (IC) designs is of increasing importance in dealing with the insecure, expanding global supply chain of these parts. The ability to trace the origin of a die, combined with the capability to uniquely identify each die provides valuable quantitative measures …

College: College of Engineering (COE)
Inventors: Khalil, Waleed; Kines, Michael "Mike"
Licensing Officer: Ashouripashaki, Mandana