Abstract: The invention provides a homogeneous composition comprising a hemostatically effective amount of a charged oxide, wherein the composition has an isoelectric point, as measured in calcium chloride, below 7.3 or above 7.4. Typically, the charged oxide is selected from the group consisting of silaceous oxides, titanium oxides, aluminum oxides, calcium oxides, zinc oxides, nickel oxides and iron oxides. In some embodiments, the composition further comprises a second oxide selected from the group consisting of calcium oxide, sodium oxide, magnesium oxide, zinc oxide, phosphorus oxide and alumina. In a typical embodiment of the invention, the charged oxide is silaceous oxide, the second oxide comprises calcium oxide and the ratio, by molar ratio, of silaceous oxide to calcium oxide is 0.25 to 15. Optionally, the composition further comprises phosphorous oxide. Also described are methods of making and using such compositions.

Abstract: The present invention relates to hemostatic compositions comprising a mesocellular oxide foam and, optionally, a biologically active agent such as a procoagulant, as well as devices and methods of use to promote blood clotting.

Abstract: Methods for building sensor arrays using electrical signals to selectively functionalize individual electrodes in an array of electrically addressable electrodes are provided. These methods are useful for providing sensor arrays for use in chemical and biochemical assays. The method is based on the sequential electrochemical reduction of functional groups on individual electrodes in order to selectively promote the functionalization of selected electrodes with selected binding entities.

Abstract: Hemostatic compositions comprising a wet layered clay (e.g., wet kaolin) and, optionally, a zeolite, as well as devices and methods of use to promote blood clotting, are provided.

Abstract: Methods for building sensor arrays using electrical signals to selectively functionalize individual electrodes in an array of electrically addressable electrodes are provided. These methods are useful for providing sensor arrays for use in chemical and biochemical assays. The method is based on the sequential electrochemical reduction of functional groups on individual electrodes in order to selectively promote the functionalization of selected electrodes with selected binding entities.

Abstract: This invention provides surfaces having nanocylinders, such as carbon nanotubes, attached thereto through biomolecular interactions, devices made from assemblies of nanocylinder-modified surfaces, and methods for producing nanocylinder modified surfaces. A variety of biomolecular interactions may be used to attach the nanocylinders to the surfaces, including hybridization of complementary oligonucleotide sequences and receptor-ligand interactions.