Patent application number | Description | Published |
20090071832 | MICROFLUIDIC DEVICE WITH VERTICAL INJECTION APERTURE - A microfluidic device with a vertical injection aperture is provided. The microfluidic device comprises a separation channel, an injection aperture disposed adjacent to and in fluid communication with the separation channel. The microfluidic device further comprises a semi-permeable filter disposed adjacent to the injection aperture, wherein the filter is configured to preconcentrate a sample in the injection aperture to form a preconcentrated sample plug during an injection operation, and wherein the sample plug flows downwardly from the injection aperture to the separation channel during an electrophoresis operation. | 03-19-2009 |
20090096088 | SEALED WAFER PACKAGING OF MICROELECTROMECHANICAL SYSTEMS - Multiple microelectromechanical systems (MEMS) on a substrate are capped with a cover using a layer that may function as a bonding agent, separation layer, and hermetic seal. A substrate has a first side with multiple MEMS devices. A cover is formed with through-holes for vias, and with standoff posts for layer registration and separation. An adhesive sheet is patterned with cutouts for the MEMS devices, vias, and standoff posts. The adhesive sheet is tacked to the cover, then placed on the MEMS substrate and heated to bond the layers. The via holes may be metalized with leads for circuit board connection. The MEMS units may be diced from the substrate after sealing, thus protecting them from contaminants. | 04-16-2009 |
20090107812 | ELECTRICAL CONNECTION THROUGH A SUBSTRATE TO A MICROELECTROMECHANICAL DEVICE - An electrical through-connection, or via, that passes through a substrate to a bus on a first surface of the substrate. The via may be configured with an interlock such that the electrically conductive core of the via is constrained to thermally expand towards the second surface, away from the bus, thus preventing damage to the bus. The interlock may be a local constriction or enlargement of the via near the first surface of the substrate. The via may be greater in length along the bus than a unit spacing of beams in a parallel microswitch array actuated in unison along the bus. The via may be narrower in width than in length, and may form a trapezoidal geometry that is larger at the second surface of the substrate than at the first surface. | 04-30-2009 |
20090159410 | MEMS MICROSWITCH HAVING A CONDUCTIVE MECHANICAL STOP - A MEMS switch includes a substrate, a movable actuator coupled to the substrate, a substrate contact, a substrate electrode, and a conductive stopper electrically coupled to the movable actuator and structured to prevent the movable actuator from contacting the substrate electrode while allowing the movable actuator to make contact with the substrate contact. | 06-25-2009 |
20100059120 | MICROFLUIDIC DEVICE AND METHODS FOR DROPLET GENERATION AND MANIPULATION - Methods and microfluidic devices for generating and manipulating sample droplets, wherein the devices comprise, a plurality of fluid channels, at least one of which is a sample channel for carrying a fluidic sample material, that is in fluid communication with the carrier fluid channel via an orifice; and an actuated flow interrupter adapted to force a predetermined amount of the sample fluid from the sample channel through the orifice into the carrier fluid channel. | 03-11-2010 |
20100147762 | MEMBRANE ASSEMBLIES AND METHODS OF MAKING AND USING THE SAME - A method of making a membrane assembly is provided. The method comprises forming an inorganic membrane layer disposed on a substrate, and forming a plurality of macropores in the substrate at least in part using anodization. Further, a membrane assembly is provided. The membrane assembly comprises a filtering membrane that is coupled to an anodized substrate comprising a plurality of macropores. | 06-17-2010 |
20110042301 | INORGANIC MEMBRANE DEVICES AND METHODS OF MAKING AND USING THE SAME - An inorganic membrane device is provided. The device comprises a substrate having a network of pores, and a membrane layer at least partially coupled to the substrate and having a plurality of pores, wherein the pores have an aspect ratio in a range from about 1:2 to about 1:100. | 02-24-2011 |
20130344280 | ENCAPSULATED BEAM AND METHOD OF FORMING - A device including a protecting material encapsulated metallic beam and a method of encapsulating the metallic beam using the protecting material layer are presented. The device includes a cantilever beam that includes at least about 90 Wt % of a metallic beam material, and 10 Wt % or less of a protecting material. The method of forming an encapsulated metallic beam includes the steps of depositing a first layer of protecting material over a substrate, depositing a second layer of protecting material over the first layer, depositing a metallic beam material over the second layer of protecting material, and encapsulating the beam material with a coating of the protecting material. | 12-26-2013 |