License this Research - Apr 24-29 2022
CATALYSTS! Summary of research that is available for licensing at various Higher Education Institutions and Research Centers from April 24 - April 29 2022.
Interesting Research:
Simple Polymer Mesogen to Create Stable Nanoporous Crystals for Filtration, Catalysts, and Ion Transport - This technology leverages a polymerizable methacrylamide group near the single ionic headgroup and a polymerizable diene group in the single hydrophobic tail. This mesogen can self-crosslink with a simple photoinitiator and UV light and remains stable to elevated temperatures and submersion in water, acids, and bases for extended periods.
Convenient Synthesis of Carbazoles without Precious Metal Catalysts - This technology utilizes hypervalent iodine and diphenyl amines to synthesize carbazole compounds. No precious metals such as palladium are required leading to simpler purification of the resulting product. This technology has currently been demonstrated at a laboratory scale. Applications: OLEDs (solar cells, LEDs, smartphones, flat-screen TV’s), Smart glass, Pharmaceuticals, Biomedical dyes, Pigments, Batteries
Non-invasive Monitoring of Cell Culture Health via Sampling of Bioreactor VOC Emissions - Researchers at the University of California, Davis have developed a device that can capture, analyze, and monitor volatile organic compounds (VOCs) emitted by cell cultures through a bioreactor exhaust line – thus eliminating the need to contact the cell culture directly. Eliminates a contact point that has the potential for introducing contamination and can assist with optimizing reactor conditions in near real-time.
Biometric Chemical Compounds for Capturing Carbon Dioxide from Power Plant Stacks and the Atmosphere - Researchers at UTHealth have engineered mutants of RSPOS that can bind to all three LGRs with high affinity but no longer function in Wnt signaling. Drug conjugates of the RSPO peptides (PDCs) were found to inhibit the growth of cancer cells expressing any of the three LGRs in vitro and in vivo without major adverse effects.
Deep Eutectic Solvents based Electrochemical Devices - liquid electrolytes are widely used in most electrochemical devices and should have a wide operating temperature window, high ionic conductivity, low viscosity, wide electrochemical stability window, non-flammability, and low cost. However, conventional liquid electrolytes cannot meet all the requirements mentioned above.
Categories covered this week:?
#nanoparticles, #agritech, #bioengineering, #dental, #carboncapture, #drugdelivery, #healthtech, #cancer, #optical, #catalysts
Research Available for Licensing:
Biometric Chemical Compounds for Capturing Carbon Dioxide from Power Plant Stacks and the Atmosphere
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Photo by National Cancer Institute on Unsplash