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Three-dimensional cellular automation codes for solidification microstructure and porosity simulation of multi-component alloys

TS-063911 — Porosity formation during the solidification of aluminum-based alloys, induced by hydrogen gas and alloy shrinkage, presents a significant challenge for industries relying on high-performance solidification products such as castings, welds, and additively manufactured components. This issue advers…

College: College of Engineering (COE)
Inventors: Luo, Aihua "Alan"; Gu, Cheng
Licensing Officer: Zinn, Ryan

High-entropy AlCrTiV alloys

TS-063365 — Experience the future of materials technology with our high-entropy AlCrTiV metal alloy—a revolutionary solution that reshapes the possibilities in engineering and manufacturing. Elevate your products to new heights of performance, efficiency, and sustainability with our innovative alloy. For a closely related technology, please visit https://oied.osu.edu/find-technologies and type "T2021-261" in the search field.

In various industries, from aerospace to manufacturing, the pursuit of materials with exceptional mechanical properties coupled with low weight is unending. Conventional alloys often trade off one aspect for another, leaving a gap in the market for a metal alloy that seamlessly integrates strength…

College: College of Engineering (COE)
Inventors: Luo, Aihua "Alan"; Huang, Xuejun; Sun, Weihua
Licensing Officer: Zinn, Ryan

Transition Metal Free Alkyne Hydrogenation and Semihydrogenation Catalysts

TS-058577 — Novel, transition metal-free catalysts capable of alkyne hydrogenation and semihydrogenation under modest conditions.

The Need Numerous industrial processes require alkyne semihydrogenation or hydrogenation reactions. For example, hydrogenation is necessary for the industrial-scale synthesis vitamin A, the creation of high molecular weight polymers, and the processing of petroleum into functionally useful derivati…

College: College of Arts & Sciences
Inventors: Goldberger, Joshua; Hodge, Kelsey
Licensing Officer: Willson, Christopher

Novel Electrode for Co-factor Regeneration

TS-051995 — Method of regenerating NADPH for the production of biobutanol.

The Need NAD(P)H is used as a reducing co-factor for the synthesis of biochemicals (e.g., conversion of aldehydes to alcohols) using biocatalysts or even microbes. Butanol is an important feedstock used in the chemical industry and shows great potential as a biofuel. Butanol is produced from fossil…

College: College of Engineering (COE)
Inventors: Kadowaki, Jonathan; Gopalan, Venkat; Jones, Travis; Sengupta, Anindita; Subramaniam, Vishwanath
Licensing Officer: He, Panqing

High-strength/high-ductility magnesium sheet alloy for room-temperature forming

TS-048065 — A new wrought magnesium alloy with optimal mechanical and formability performance suitable for industrial applications

Magnesium (Mg), the lightest structural metal, and its alloys, with their high specific strength and low density, are promising lightweight materials for industrial applications in automotive, aerospace, and electronic sectors. A 2019 report by Business Communications Company (BCC) Research highli…

College: College of Engineering (COE)
Inventors: Luo, Aihua "Alan"; Shi, Renhai
Licensing Officer: Zinn, Ryan

Activity Enhancement of Perovskite-Type Cathode Material

TS-044391 — A new ammonia production technology using an oxygen ion conductive solid oxide electrolyte cell (SOEC) reactor and a novel cathode material.

Ammonia is utilized in a variety of industries with 80% of produced ammonia used for fertilizer production. Most commercial ammonia is produced using the Haber-Bosch (HB) process, which requires high temperatures and pressures, resulting in high operational/production costs. The process typically us…

College: College of Engineering (COE)
Inventors: Ozkan, Umit; Deka, Dhruba Jyoti; Gunduz, Seval
Licensing Officer: Ashouripashaki, Mandana