| Patent Number |
Title Of Patent |
Date Issued |
| 7553622 |
Process for preparing processed sample liquid solution for electrophoresis |
June 30, 2009 |
| A process for preparing a processed sample liquid solution for gel electrophoresis, comprising (a) treating a sample comprising a cell suspension in a non-shearing manner to produce a processed sample liquid solution comprising a mixture of DNA fragments extracted from the cell suspe |
| 7452528 |
Peptide-based carbon nanotube hair colorants and their use in hair colorant and cosmetic composi |
November 18, 2008 |
| Peptide-based carbon nanotube hair colorants are described. The hair colorants are prepared by coupling hair-binding peptides to the surface of chemically functionalized carbon nanotubes. Hair colorant and cosmetic compositions comprising the peptide-based carbon nanotube colorants are |
| 7276088 |
Hair coloring and cosmetic compositions comprising carbon nanotubes |
October 2, 2007 |
| The invention provides new hair colorant and cosmetic compositions comprising carbon nanotubes that have either been chemically functionalized or physically modified to increase their affinity for hair. |
| 5491083 |
Immobilization of biomolecules on a fluorocarbon surface with a poly(fluoroalkyl) sugar reagent |
February 13, 1996 |
| Poly(fluoroalkyl) sugar reagents are prepared containing a sugar such as a monosaccharide or a disaccharide to which are bonded a plurality of fluoroalkyl anchor groups capable of attaching to a fluorocarbon surface, and either a reactive group capable of covalent coupling to a biomolecu |
| 5384254 |
Immobilization of biomolecules on a fluorocarbon surface modified with a poly(fluoroalkyl) sugar |
January 24, 1995 |
| Poly(fluoroalkyl) sugar reagents are prepared containing a sugar such as a monosaccharide or a disaccharide to which are bonded a plurality of fluoroalkyl anchor groups capable of attaching to a fluorocarbon surface, and either a reactive group capable of covalent coupling to a biomolecu |
| 5342772 |
Process for enzyme immobilization on a fluorocarbon surface |
August 30, 1994 |
| The fluorocarbon surface of a solid or liquid support is activated with a highly fluorinated isocyanate-modified ligand or with a reactive poly(fluoroalkyl) sugar reagent containing a polyhydroxy sugar to which are attached a plurality of fluoroalkyl anchor groups, a reactive group a |
| 5306468 |
Apparatus for the handling of electrophoretic transfer membranes and for the chemiluminescent de |
April 26, 1994 |
| Improved apparatus for the handling and detecting of an electrophoretic transfer membrane is disclosed herein, the improvement comprising guide apparatus designed to accommodate the transfer membrane, a pressure head positioned relative to the guide apparatus to releasably engage the |
| 5270164 |
Process for enhancing the chemiluminescence of enzyme-triggered 1,2-dioxetanes and uses therefor |
December 14, 1993 |
| A process is disclosed for the enhancement of the chemiluminescence of enzyme-triggered 1,2-dioxetanes detectable within a sample. The process comprises first providing a solid support having sample disposed thereon and suitably treated with a solution including enzyme-triggered 1,2- |
| 5243037 |
Poly(fluoroalkyl) sugar reagents for surface modification of supports |
September 7, 1993 |
| Poly(fluoroalkyl) sugar reagents are prepared containing a sugar such as a monosaccharide or a disaccharide to which are bonded multiple fluoroalkyl anchor groups capable of attaching to a fluorocarbon surface, and either a reactive group capable of covalent coupling to a biomolecule or |
| 5079155 |
Fluorocarbon polymer support for chromatographic separations, diagnostic assays and enzyme immob |
January 7, 1992 |
| A solid support useful for bioaffinity and ion-exchange separations and enzyme immobilization is provided. The support is based on a non-perfluorocarbon solid carrier core coated with a nonionic fluorosurfactant-coated fluorocarbon interlayer to which a ligand or a binder for the lig |
| 4954444 |
Enzyme immobilization and bioaffinity separations with perfluorocarbon polymer-based supports |
September 4, 1990 |
| A bioaffinity separation method is provided along with a solid affinity support utilized in that method. Additionally, immobilized enzyme systems are provided for use as enzyme electrode systems. The support is based on an inert perfluorocarbon polymer carrier with ligands or binders att |
| 4931172 |
Fluoride ion-selective electrodes based upon superionic conducting ternary compounds and methods |
June 5, 1990 |
| This invention relates to fluoride ion-selective electrodes which employ, as the active membrane component, a ternary compound of the type M.sub.x Ln.sub.y F.sub.3-x, where M is an alkaline earth metal ion such as calcium, strontium or barium, and Ln is a lanthanide metal ion such as |
| 4885250 |
Enzyme immobilization and bioaffinity separations with perfluorocarbon polymer-based supports |
December 5, 1989 |
| A bioaffinity separation method is provided along with a solid affinity support utilized in that method. Additionally, immobilized enzyme systems are provided for use as enzyme electrode systems. The support is based on an inert perfluorocarbon polymer carrier with ligands or binders att |
| 4699887 |
Electrochemical determination of hematocrit |
October 13, 1987 |
| A method for measuring hematocrit is provided. An electrochemically detectable marker is measured before and after the ratio of red cell volume to plasma volume is decreased. The measured concentrations are used in a mathematical formula to determine hematocrit value. |
| 4605628 |
Electrochemical determination of hematocrit |
August 12, 1986 |
| A method for measuring hematocrit is provided. An electrochemically detectable marker is measured before and after the ratio of red cell volume to plasma volume is decreased. The measured concentrations are used in a mathematical formula to determine hematocrit value. |
