Available Technologies
# of Displayed Technologies: 3 / 3
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: Panic, Ana
Transition Metal Free Alkyne Hydrogenation and Semihydrogenation Catalysts
TS-048726 — 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: Panic, Ana
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
