High-Speed Transition Metal-Catalyzed Chemistry Promoted by Microwave Irradiation
Poster May 01, 2006
Toma Glasnov, Peter Walla, Alexandler Stadler, Alenka Lengar,Bimbisar Desai, Bogdan Khanetskyy, Doris Dallinger and C. Oliver Kappe
When using traditional heating under reflux conditions many transition metal-catalyzed C-C and C-X bond forming reactions typically need hours or days to reach completion. Fast and reliable microwave protocols are therefore very much needed for speeding up transformations in the field of homogeneous catalysis, taking into account the advantages of microwave heating – rapid transfer of energy and inverted temperature gradients, by increasing the lifetime of the catalyst, i.e. eliminating the wall effects seen in convetional heating methods.
CiPA Phase 2 Study: validation of an automated microelectrode array (MEA) assay of hiPSC-derived cardiomyocyte electrophysiology for cardiac safety evaluationPoster
These results support the use of hSC-CM and MEA technology for preclinical assessment of proarrhythmic risk within the proposed CiPA paradigm, and, more generally, demonstrate that automation of the CM-MEA assay can achieve high reliability and throughput for cardiac risk assessment in vitro.READ MORE
A luminescent solar concentrator-based photomicroreactor for energy efficient continuous-flow photocatalysisPoster
The Luminescent Solar ConcentratorPhotomicroreactor
(LSC-PM) is an innovative device
for solar-powered continuous-flow photochemistry.
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Orphan Drugs and Rare Diseases Global Congress 2017 USA
Sep 12 - Sep 14, 2017