This invention utilizes a delivery system that allows for a biologically relevant moiety to be delivered to a desired cell by utilizing a transporting agent that binds two receptors expressed by that cell. This decreases the toxicity that is shown by the active compound by delivering it only to a targeted cell.
The invention provides a "sample-in-answer-out" microfluidic exosome profiling platform which integrates immunoaffinity isolation of plasma exosomes with quantitative detection of both surface and intravesicular markers for characterization of exosomal phenotypes.
KU researchers have developed a novel apparatus and associated method for the in situ formation of multi-layer thin film structures using atomic layer deposition (ALD) and ultra-high vacuum (UHV) physical/chemical vapor deposition.
In contrast to conventional ethylene oxide (EO) production methods, this invention employs a new catalyst, a different oxidant, and much milder operating conditions. This inventive method eliminates carbon dioxide waste and converts ethylene to EO with greater than 99% selectivity. In addition to increased efficiency and a reduced carbon footprint, this invention offers safety advantages over conventional methods.
The current inventions utilizes a novel metal based catalyst in order to allow for the use of hydrogen peroxide as an oxidant allowing for a greener approach to olefin epoxidation. Further this method employs a catalyst that allows for less metal leaching, decreases hydrogen peroxide decomposition, and no carbon dioxide byproduct as demonstrated by gas chromatography.
This invention is a process to convert a biomass side product, glycerol, into an industrial chemical. The process eliminates the previous step of externally adding hydrogen to create a more efficient product with a higher yield of product with lower deoxygenation.
This invention is a novel catalyst made up of a support, a linker, and a ruthenium catalyst nanoparticle. The invention covers not only synthesis of the catalyst but also methods of performing hydrogenolysis with the catalyst.