Abstract:
A method of fabricating a microarray including the steps of: (a) contacting a substrate having wells with a reagent reactive with said substrate to produce a surface modification within said wells and a surface modification surrounding said wells; (b) polishing said substrate to produce a polished surface modification surrounding said wells, wherein said surface modification surrounding said wells is removed and said surface modification within said wells is retained, and (c) depositing a biopolymer onto said substrate, wherein different affinities of said surface modification within said wells and said polished surface facilitate localization of said biopolymer within said wells.
Abstract:
A plurality of isolated microvessels including a plurality of encoded microvessels each having a microbody and a reservoir core. The microbody is configured to separate a biological or chemical substance in the reservoir core from an ambient environment surrounding the microbody. The microbody includes a transparent material that at least partially surrounds the reservoir core and facilitates detection of an optical characteristic of the substance within the reservoir core. The microbody of each microvessel includes an identifiable code that distinguishes individual microvessels of the plurality of encoded microvessels from each other. The plurality of isolated microvessels also includes a plurality of compartments each configured to separate individual microvessels of the plurality of encoded microvessels from each other.
Abstract:
An electroosmotic (EO) pump is provided that includes a housing having a pump cavity, a porous core medium and electrodes. The porous core medium is positioned within the pump cavity to form an exterior reservoir that extends at least partially about an exterior surface of the porous core medium. The porous core medium has an open inner chamber provided therein. The inner chamber represents an interior reservoir. The electrodes are positioned in the inner chamber and are positioned proximate the exterior surface. The electrodes induce flow of a fluid through the porous core medium between the interior and exterior reservoirs, wherein a gas is generated when the electrodes induce flow of the fluid. The housing has a fluid inlet to convey the fluid to one of the interior reservoir and the exterior reservoir. The housing has a fluid outlet to discharge the fluid from another of the interior reservoir and the exterior reservoir. The housing has a gas removal device to remove the gas from the pump cavity.
Abstract:
A plurality of isolated microvessels including a plurality of encoded microvessels each having a microbody and a reservoir core. The microbody is configured to separate a biological or chemical substance in the reservoir core from an ambient environment surrounding the microbody. The microbody includes a transparent material that at least partially surrounds the reservoir core and facilitates detection of an optical characteristic of the substance within the reservoir core. The microbody of each microvessel includes an identifiable code that distinguishes individual microvessels of the plurality of encoded microvessels from each other. The plurality of isolated microvessels also includes a plurality of compartments each configured to separate individual microvessels of the plurality of encoded microvessels from each other.
Abstract:
A method of fabricating a microarray including the steps of: (a) contacting a substrate having wells with a reagent reactive with said substrate to produce a surface modification within said wells and a surface modification surrounding said wells; (b) polishing said substrate to produce a polished surface modification surrounding said wells, wherein said surface modification surrounding said wells is removed and said surface modification within said wells is retained, and (c) depositing a biopolymer onto said substrate, wherein different affinities of said surface modification within said wells and said polished surface facilitate localization of said biopolymer within said wells.
Abstract:
An electroosmotic (EO) pump is provided that includes a housing having a pump cavity, a porous core medium and electrodes. The porous core medium is positioned within the pump cavity to form an exterior reservoir that extends at least partially about an exterior surface of the porous core medium. The porous core medium has an open inner chamber provided therein. The inner chamber represents an interior reservoir. The electrodes are positioned in the inner chamber and are positioned proximate the exterior surface. The electrodes induce flow of a fluid through the porous core medium between the interior and exterior reservoirs, wherein a gas is generated when the electrodes induce flow of the fluid. The housing has a fluid inlet to convey the fluid to one of the interior reservoir and the exterior reservoir. The housing has a fluid outlet to discharge the fluid from another of the interior reservoir and the exterior reservoir. The housing has a gas removal device to remove the gas from the pump cavity.