Patent application number | Description | Published |
20090188316 | Resistive Hydrogen Sensor - A resistive hydrogen sensor has at least two electrical connections and at least one resistance layer containing at least one suitable material for incorporating hydrogen, via which the electrical connections are connected to each other. The resistance layer adjoins at least one interface on a contact layer, which contains at least one chemical element from the fourth subgroup of the periodic table and/or carbon. The contact layer connected in series between the electrical connections to the resistance layer. | 07-30-2009 |
20090325038 | FUEL CELL AND PROCES FOR MANUFACTURING A FUEL CELL - The present invention pertains to a fuel cell with a storage unit ( | 12-31-2009 |
20100160940 | Surgical Instrument - A surgical instrument has a shaft, an end effector comprising at least one movably mounted tool element and defining a longitudinal axis, and a force transmitting member mounted in the shaft for movement in the distal and proximal directions for transmitting an actuating force introduced at a proximal end of the instrument onto the end effector in order to move the at least one tool element from a first tool element position to a second tool element position and/or vice versa. The at least one tool element is pivotably mounted on a bearing shaft held on the shaft. The at least one tool element is connected by at least one articulation member, at least a section of which is flexible, to the force transmitting member in order to transmit the actuating force from the force transmitting member onto the at least one tool element. | 06-24-2010 |
20110136023 | INTEGRATED HYDRIDE AIR ACCUMULATOR SYSTEM AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to an integrated hydride air accumulator system and method for manufacturing the same. More specifically, the present invention relates to an integrated hydride/air accumulator with an air electrode, a hydride storage and a counter electrode conductively connected with the hydride storage which is in electrical contact with an electrolyte and an ionically conductive membrane between the air electrode and the counter electrode. | 06-09-2011 |
20110217659 | METHOD FOR PRODUCING A PROTON-CONDUCTING, STRUCTURED ELECTROLYTE MEMBRANE - In a method for producing a proton-conductive, structured electrolyte membrane, particularly for a fuel cell, a coating, which comprises at least one ion-conductive cross-linking component having at least one acid group and at least one photoactive substances interacting therewith, is applied onto a solid body surface. The coating is optically masked in that at least one region of the coating, in which the electrolyte membrane is supposed to be, is exposed such that the cross-linking component cross-links with the photoactive substances to form a polymer and/or copolymer network adhering to the solid body surface. At least one unexposed region of the coating is removed in order to structure the electrolyte membrane. | 09-08-2011 |
20110241226 | METHOD FOR PRODUCING A MICROFLUID COMPONENT, AS WELL AS MICROFLUID COMPONENT - A method for producing a microfluid component includes: Producing a single polymer layer made of at least one plastic or a plastic composite and having a microfluid structure, fitting the polymer layer with at least one semiconductor element, and/or with at least one electronic component, and/or with an optical or optoelectronic component, sealing the microfluid structure. | 10-06-2011 |
20120021323 | FUEL CELL AND METHOD FOR PRODUCING THE SAME - The invention relates to a fuel cell ( | 01-26-2012 |
20140205927 | FUEL CELL AND PROCES FOR MANUFACTURING A FUEL CELL - The present invention pertains to a fuel cell with a storage unit ( | 07-24-2014 |