SOLID STATE DIMENSIONAL CHEMICAL SYNTHESIS

Brand Owner (click to sort) Address Description
IRORI BROOKS AUTOMATION, INC. 15 Elizabeth Drive Chelmsford MA 01824 solid state 3-dimensional chemical synthesis matrices with semiconductor memory or encoded or engraved identifiers, such as barcodes, for characterizing molecules during discrete synthetic and assay steps by electromagnetic or optical encoding, comprised of biosensors, microelectronics, optical, electrical and robotic components to develop lead compounds for therapeutic development;
IRORI QUANTUM MICROCHEMISTRY IRORI 11025 NORTH TORREY PINES ROAD SUITE 100 LA JOLLA CA 92037 solid state 3-dimensional chemical synthesis matrices with semiconductor memory or encoded or engraved identifiers, such as barcodes, to develop lead compounds for therapeutic development comprised of biosensors, microelectronics, optical, electrical, or robotic components for characterizing molecules during discrete synthetic and assay steps by electromagnetic or optical encoding;In the statement, Column 1, before line 1, Irori (CA Corporation) 11025 North Torrey Pines Road Suite 100 La Jolla, CA 92037, assignee of should be inserted.;MICROCHEMISTRY;
RECC IRORI, INC. 11588 Sorrento Valley Road, Suite 16 San Diego CA 92121 solid state 3-dimensional chemical synthesis matrices with semiconductor memory or encoded or engraved identifiers, such as barcodes, to develop lead compounds for therapeutic development, comprised of biosensors, microelectronics, optical, electrical, or robotic components, for characterizing molecules during discrete synthetic and assay steps by electromagnetic or optical encoding;
 

Where the owner name is not linked, that owner no longer owns the brand

   
Technical Examples
  1. The present invention relates in general to the preparation and use of matrices having solid spaces, interstitial spaces and interstitial polymer networks. In particular, the interstitial polymer networks have utility in chemical and biochemical separations, solid phase synthesis, catalysis of chemical reactions, and immobilized enzyme reactors. The interstitial polymer networks in one embodiment comprise crosslinked polymers suspended in the interstitial spaces from and/or between solid particles. The matrices are characterized by high ligand and functional group density and by reversible high sorptive and binding capacity, and are substantially accompanied by a very low nonspecific adsorption or interaction with molecules such as proteins. Moreover, the matrices of the invention exhibit other characteristics highly desirable in chromatographic and catalytic applications, such as high physical rigidity, high ligand density, chemical stability, high ligand reactivity, and rapid exchange and reaction kinetics.