| UNIVERSITAT ZURICH PROREKTORAT FORSCHUNG Patent applications |
| Patent application number | Title | Published |
|---|
| 20110306122 | Hanging Drop Plate - A hanging drop plate and a method of cultivating cells or of producing molecular aggregates in at least one liquid volume that adheres to a drop contact area of such a hanging drop plate. The hanging drop plate has a body with a first surface and a second surface that is essentially coplanar to the first surface. The second surface has a drop contact area for adherently receiving a liquid volume. The drop contact area is distinguished from a surrounding area by a relief structure that prevents spreading of the liquid volume on the second surface of the body. The body has at least one conduit that mouths into the drop contact area from the direction of the first surface of the body. A liquid volume is applied to the drop contact area through a communicating conduit. Cells and/or molecules can be introduced into this liquid volume. | 12-15-2011 |
| 20100144662 | AMINOGLYCOSIDE ANTIBIOTICS TARGETING BACTERIAL 16S RIBOSOMAL RNA - The present invention relates to paromamine-based compounds according to formula I having selective antimicrobial activity directed at ribosomal 16S RNA. Furthermore, the invention is directed to the use of said compounds for preparing a medicament, pharmaceutical preparations and methods for preparing said compounds | 06-10-2010 |
| 20090196300 | METHOD FOR FORWARDING DATA PACKETS AND COMMUNICATION NETWORK HAVING FLOODING TRANSPORT PROPERTIES - A method of forwarding data packets in a communication network includes the following steps: a) generating a stream of data packets at a first subscriber; b) adding to each of the data packets in the stream a recipient individualizing information to form individualized data packets; c) forwarding the individualized data packets to a first repeater node; d) flooding the individualized data packets from the first repeater node to any further subscriber connected to the first repeater node; e) flooding the individualized data packets to any further repeater node connected to the first repeater node; f) flooding the individualized data packets in any further repeater node analogous to the steps d) and e); g) connecting any possible further subscriber of the stream of individualized data packets to a repeater node selected from a group containing the first repeater node and any further repeater nodes and g) enabling only those of the any possible subscribers to access a content of the individualized data packets when able to identify as authorized subscriber by knowledge of the recipient individualizing information added to the data packets. | 08-06-2009 |
