| 20110284975 | MICROSTRUCTURE, METHOD FOR PRODUCING THE SAME, DEVICE FOR BONDING A MICROSTRUCTURE AND MICROSYSTEM - A microstructure has at least one bonding substrate and a reactive multilayer system. The reactive multilayer system has at least one surface layer of the bonding substrate with vertically oriented nanostructures spaced apart from one another. Regions between the nanostructures are filled with at least one material constituting a reaction partner with respect to the material of the nanostructures. A method for producing at least one bonding substrate and a reactive multilayer system, includes, for forming the reactive multilayer system, at least one surface layer of the bonding substrate is patterned or deposited in patterned fashion with the formation of vertically oriented nanostructures spaced apart from one another, and regions between the nanostructures are filled with at least one material constituting a reaction partner with respect to the material of the nanostructures. A device for bonding a microstructure, which has at least one bonding substrate and a reactive multilayer system, to a further structure, which has a bonding substrate. The device has a bonding chamber, which can be opened and closed and evacuated and in which the microstructure and the further structure can be introduced and aligned with one another, and also an activation mechanism, which is coupled to the bonding chamber and by means of which the reactive multilayer system of the microstructure, said reactive multilayer system being formed from reactive nanostructures with—situated therebetween—a material constituting a reaction partner with respect to the material of the nanostructures, can be activated mechanically, electrically, electromagnetically, optically and/or thermally in such a way that a self-propagating, exothermic reaction takes place between the nanostructures and the material constituting a reaction partner with respect to the material of the nanostructures. A microsystem is formed from two bonding substrates and a construction lying between the bonding substrates, the construction having a reacted reactive layer system, wherein the reacted reactive layer system is a reacted structure sequence composed of at least one surface layer—provided on the bonding substrate—with vertically oriented nanostructures spaced apart from one another, and regions filled between the nanostructures with at least one material constituting a reaction partner with respect to the material of the nanostructures. The microsystem is a sensor coated with biomaterial and/or has elements composed of polymeric material and/or at least one magnetic and/or piezoelectric and/or piezoresistive component. | 11-24-2011 |
| 20120187509 | Contact Arrangement For Establishing A Spaced, Electrically Conducting Connection Between Microstructured Components - A contact arrangement for establishing a spaced, electrically conducting connection between a first wafer and a second wafer includes an electrical connection contact, a passivation layer on the electrical connection contact, and a dielectric spacer layer arranged on the passivation layer, wherein the contact arrangement is arranged at least on one of the first wafer and the second wafer, wherein the contact arrangement comprises trenches at least partly filled with a first material capable of forming a metal-metal connection, wherein the trenches are continuous trenches from the dielectric spacer layer through the passivation layer as far as the electrical connection contact, and wherein the first material is arranged in the trenches from the electrical connection contact as far as the upper edge of the trenches. | 07-26-2012 |
