Available Technologies
# of Displayed Technologies: 4 / 4
Applied Category Filter (Click To Remove): Separation & Purification
Nanoporous Cu–Ru Catalysts for Selective CO₂ Electrochemical Conversion
TS-073880 —
Industrial CO₂ electroreduction remains limited by high energy input, poor selectivity, and low formation rates of valuable multi‑carbon products. Conventional copper catalysts often favor hydrogen evolution or low‑value C₁ products such as methane, while catalysts that improve selectivity…
- College: College of Arts & Sciences
- Inventors: Co, Anne; Billy, Joshua; Coleman, Eric; Walz, Kendahl
- Licensing Officer: Randhawa, Davinder
Co-Axial Contained Electrospray Ionization Platform for Mass Spectrometry
TS-067158 — The Need
Mass spectrometry (MS) is used across a wide range of applications for detection of various chemical analytes such as drug metabolites, pesticides, food adulterants, and natural product extracts. Recent developments have transformed MS into an all-purpose technique for in-situ and real-tim…
- College: College of Arts & Sciences
- Inventors: Badu-Tawiah, Abraham; Burris, Benjamin "Ben"; Grooms, Alex; Heiss, Derik; Kulyk, Dmytro
- Licensing Officer: Panic, Ana
Porous inorganic-organic material for removal of trace carbon dioxide from air or other gas streams
TS-041747 — Adsorbent for carbon dioxide capture with low energy input for regeneration, and high adsorption capacity
46% of 2010 global greenhouse gas emissions came from electricity and heat production, or from fossil fuels burned for industrial use (EPA). A lot of effort has been put into research on CO2 capture by adsorbents or absorbents, in order to reduce these greenhouse gas emissions. Additionally, effec…
- College: College of Arts & Sciences
- Inventors: Wade, Casey; Bien, Caitlin
- Licensing Officer: Dahlman, Jason "Jay"
Molecularly Imprinted Pyrolyzed Photoresist - A Molecularly Imprinted Carbon
TS-015282 — A thermo-stable, durable, and highly selective molecular carbon template for solid phase extraction/microextraction.
Molecularly Imprinted Polymers (MIPs) are robust molecular recognition elements able to mimic natural recognition entities, such as antibodies and biological receptors, useful to separate and analyze complicated samples such as biological fluids and environmental samples. This is a commonly utiliz…
- College: College of Arts & Sciences
- Inventors: Olesik, Susan; Zewe, Joseph
- Licensing Officer: Dahlman, Jason "Jay"
