Patent application number | Description | Published |
20110251604 | NANO DISCHARGES IN LIQUIDS - The present invention is direct to a nano-probe corona tool and uses thereof. A nano-probe corona tool is disclosed having a tip with a diameter in the nano-scale, typically around 100 nm. The nano-probe corona tool is constructed of electrically conductive material. On the other end of the tool, a pulsed voltage source outputs a pulsed voltage to generated a pulsed electrical potential at the tip. The pulsed electrical potential at the tip causes a plasma discharge corona to occur. Uses of the corona discharge include, but are not limited to, optical emission spectroscopy, in the enhancement of deposition of coatings and nanoscale welding, e.g., nanotube or nanowires to a contact pad and welding two nanowires together, and in nanoscale surgery. For example, a nano-probe comprising CNTs may be inserted into cell membranes. The resulting corona discharge may be used to destroy tumors within the cell. | 10-13-2011 |
20120100524 | TUBULAR FLOATING ELECTRODE DIELECTRIC BARRIER DISCHARGE FOR APPLICATIONS IN STERILIZATION AND TISSUE BONDING - Disclosed is a device and method for contacting a biological substrate. A non-thermal plasma device delivers a non-thermal plasma discharge using a dielectric conduit, an igniter electrode and a RF electrode. The dielectric conduit fluidicly communicates a gas therethrough and an igniter electrode ionizes at least a portion of the gas. The RF electrode, disposed circumferentially proximate to the exterior of the dielectric conduit, generates non-thermal plasma from the ionized gas. The non-thermal plasma is discharged from the dielectric conduit and contacts a biological substrate. The non-thermal plasma discharge may be suitable for tissue bonding and sterilization applications. | 04-26-2012 |
20120259272 | Plasma Treatment and Plasma Enhanced Chemical Vapor Deposition onto Temperature Sensitive Biological Materials - A method and apparatus for depositing a film on a biological substrate are provided. A plasma generation device includes a dielectric conduit and a high voltage electrode. The plasma generation device is placed in proximity to the biological substrate and a gas supply that includes a precursor material is directed through the dielectric conduit. An electric field generated by the potential difference between the high voltage electrode and the biological substrate ionizes at least a portion of the gas supply and causes plasma to emanate from the dielectric conduit and contact the biological substrate. The plasma induces a reaction of the precursor material to form a film that is deposited on the biological substrate. | 10-11-2012 |
20140311891 | TUBULAR FLOATING ELECTRODE DIELECTRIC BARRIER DISCHARGE FOR APPLICATIONS IN STERILIZATION AND TISSUE BONDING - Disclosed is a device and method for contacting a biological substrate. A non-thermal plasma device delivers a non-thermal plasma discharge using a dielectric conduit, an igniter electrode and a RF electrode. The dielectric conduit fluidicly communicates a gas therethrough and an igniter electrode ionizes at least a portion of the gas. The RF electrode, disposed circumferentially proximate to the exterior of the dielectric conduit, generates non-thermal plasma from the ionized gas. The non-thermal plasma is discharged from the dielectric conduit and contacts a biological substrate. The non-thermal plasma discharge may be suitable for tissue bonding and sterilization applications. | 10-23-2014 |
20150079300 | Plasma Treatment and Plasma Enhanced Chemical Vapor Deposition onto Temperature Sensitive Biological Materials - A method and apparatus for depositing a film on a biological substrate are provided. A plasma generation device includes a dielectric conduit and a high voltage electrode. The plasma generation device is placed in proximity to the biological substrate and a gas supply that includes a precursor material is directed through the dielectric conduit. An electric field generated by the potential difference between the high voltage electrode and the biological substrate ionizes at least a portion of the gas supply and causes plasma to emanate from the dielectric conduit and contact the biological substrate. The plasma induces a reaction of the precursor material to form a film that is deposited on the biological substrate. | 03-19-2015 |
20150141986 | NANO DISCHARGES IN LIQUIDS - The present invention is direct to a nano-probe corona tool and uses thereof A nano-probe corona tool is disclosed having a tip with a diameter in the nano-scale, typically around 100 nm. The nano-probe corona tool is constructed of electrically conductive material. On the other end of the tool, a pulsed voltage source outputs a pulsed voltage to generate a pulsed electrical potential at the tip. The pulsed electrical potential at the tip causes a plasma discharge corona to occur. Uses of the corona discharge include, but are not limited to, optical emission spectroscopy, in the enhancement of deposition of coatings and nanoscale welding, e.g., nanotube or nanowires to a contact pad and welding two nanowires together, and in nanoscale surgery. For example, a nano-probe comprising CNTs may be inserted into cell membranes. The resulting corona discharge may be used to destroy tumors within the cell. | 05-21-2015 |
Patent application number | Description | Published |
20120089294 | DEVICE AND METHOD FOR SUPPORTING A DRIVER OF A MOTOR VEHICLE DURING A DRIVING MANEUVER - A method and device for supporting a driver of a motor vehicle during a driving maneuver during which longitudinal guidance and/or lateral guidance is/are performed in an automated manner. A trajectory for performing the driving maneuver being determined and the vehicle being guided with automatic control along the trajectory, while the surroundings of the vehicle is being monitored during the driving maneuver. If the driver intervenes in the steering while lateral guidance is being performed or if the driver operates the accelerator while longitudinal guidance is being performed or if the driver intervenes in the steering or operates the accelerator while longitudinal guidance and lateral guidance are being performed, the control of the vehicle is returned to the driver. In the case of an imminent endangerment to the surroundings, control is not transferred to the driver. | 04-12-2012 |
20130046431 | METHOD FOR ASSISTING A DRIVER OF A MOTOR VEHICLE - In a method for assisting a driver of a motor vehicle during a driving maneuver, the surroundings of the motor vehicle are initially detected, at least one suitable trajectory for carrying out the driving maneuver is computed based on the detected surroundings, and the motor vehicle is automatically steered in order to carry out the driving maneuver. If there is a malfunction, the driver is informed, the automatic steering operation is terminated, and the driver receives information on the basis of which the driver may continue the driving maneuver. | 02-21-2013 |
20130103246 | PARKING SYSTEM HAVING LONGITUDINAL AND TRANSVERSE GUIDANCE - A method in a parking system for supporting parking using a longitudinal guidance and a transverse guidance, and to such a parking system. The method includes: calculating a parking trajectory having at least one stopping point; detecting, independently of the driver's actions, that the calculated stopping point has been reached; and, in reaction to the detection, providing a signal for a steering change for a steering controller. On a time axis there consequently takes place an initiation of a steering change in time period before a time at which the driver changes gear and independently of it. | 04-25-2013 |
20140088836 | Method and Control System for Adjusting at Least One Side Mirror of a Motor Vehicle - A method by which a setting, which corresponds to a type of parking space, of at least one side mirror of a motor vehicle is ensured during a parking operation, the method including at least the following: a. a control unit of the motor vehicle detects the type of parking space into which the motor vehicle is to be parked, b. the control unit initiates an adjustment of the side mirror to a setting which is adapted to the type of parking space detected in step a. if an instantaneous setting of the side mirror does not correspond to the setting which is adapted to the type of parking space detected in step a. | 03-27-2014 |