Abstract: The present disclosure relates to a chromatographic stationary phase having a uniform polymer density, and related methods. In particular, the present disclosure relates to a method of forming a uniformly dense stationary phase inside a chromatography column.

Abstract: A coating of a random copolymer of acrylamide and a second monomer, e.g. glycidoxylmethacrylate, for a silica surface is described. The coating is applied to chromatographic support structures having silica based surfaces. The coating is functionalized to produce protein chromatography matrices that are particularly useful for extracting trace amounts of biomarker molecules from biological samples.

Abstract: A self-assembled engineered lattice of nanometer-scale silica particles, or other suitable particles generally resembling regularly-sized spheres, is configured in a separation bed for electrophoresis, isoelectric focusing, chromatography, or other voltage-induced separation of analytes. After separation, the analytes are immobilized on the separation bed and then ionized using matrix-assisted laser desorption/ionization (MALDI) for use with a mass spectrometer. The nanoparticles can be coated with polymers that activate to immobilize the analytes or assist with MALDI. The separation can occur in two dimensions.

Abstract: The present invention provides systems, methods and kits which enable or utilize an immunologically-based assay, such as a Western immunoassay, to separate, detect or to monitor an analyte or a mixture of analytes such as biomolecules.

Abstract: A self-assembled engineered lattice of nanometer-scale silica particles, or other suitable particles generally resembling regularly-sized spheres, is configured in a separation bed for electrophoresis, isoelectric focusing, chromatography, or other voltage-induced separation of analytes. After separation, the analytes are immobilized on the separation bed and then ionized using matrix-assisted laser desorption/ionization (MALDI) for use with a mass spectrometer. The nanoparticles can be coated with polymers that activate to immobilize the analytes or assist with MALDI. The separation can occur in two dimensions.

Abstract: A coating of a random copolymer of acrylamide and a second monomer, e.g. glycidoxylmethacrylate, for a silica surface is described. The coating is applied to chromatographic support structures having silica based surfaces. The coating is functionalized to produce protein chromatography matrices that are particularly useful for extracting trace amounts of biomarker molecules from biological samples.

Abstract: Sintering self-assemblies of calcined colloidal silica particles results in sintered colloidal crystals that are free of cracks that can be resolved using optical microscopy. The sintered colloidal crystals have significantly improved strength and durability, and withstand aggressive handling. Surface rehydroxylation of the sintered colloidal crystals enables subsequent chemical modification.

Abstract: The present invention relates to stabilized silica colloidal crystals. In particular, the present invention relates to silica colloidal crystals having improved mechanical strength and durability. The present invention also relates to methods of making stabilized silica colloidal crystals by direct bonding between nanoparticles or between a polymer and nanoparticles through a siloxane bond.

Abstract: Sintering self-assemblies of calcined colloidal silica particles results in sintered colloidal crystals that are free of cracks that can be resolved using optical microscopy. The sintered colloidal crystals have significantly improved strength and durability, and withstand aggressive handling. Surface rehydroxylation of the sintered colloidal crystals enables subsequent chemical modification.

Abstract: A method for assessing a surface finish on a substrate. The method applies molecules that have an interaction with the substrate to the substrate. Then illuminating the surface of the substrate and monitoring the molecules on the surface of the substrate to determine the finish of the surface of the substrate.

Abstract: A protective monolayer is formed on e.g. silica gel and glass surfaces comprising a monolayer of silicon and oxygen atoms which is substituted with first and second hydrocarbyl substituents.

Abstract: A protective monolayer is formed on e.g. silica gel and glass surfaces comprising a monolayer of silicon and oxygen atoms which is substituted with first and second hydrocarbyl substituents.