1
Rainer Hintsche, Manfred Paeschke, Uwe Schnakenberg, Ulla Wollenberger: Electrochemical sensor. Fraunhofer Gesellschaft zur angewandten Forschung e V, Karl Hormann, September 23, 1997: US05670031 (317 worldwide citation)

The invention relates to an electrochemical sensor with interdigital micro-electrodes (1) with structure widths in the sub-.mu.m range. With a twin or multi-pair array of the interdigital micro-electrodes on a substrate (8), the electrochemical detection of molecules with high sensitivity is made po ...


2
Uwe Schnakenberg, Wilfried Mokwa, Christine Kreiner, Horst Richter: Device for measuring the intra-ocular pressure. Acritec, Mesotec Gesellschaft für Medizinische Sensortechnik mbH, Crowell & Moring, September 3, 2002: US06443893 (66 worldwide citation)

A device for measuring intraocular pressure includes a remote measuring device that can be implanted in the eye and that contains a pressure sensor, a device that can convert the sensor signals into information that can be transmitted without wires, and a transmitter. The device also includes a rece ...


3

4
Wolfgang Benecke, Uwe Schnakenberg, Burkhard Lischke: Method for manufacturing a control plate for a lithographic device. Siemens Aktiengesellschaft, Hill Van Santen Steadman & Simpson, February 19, 1991: US04994336 (40 worldwide citation)

A method for manufacturing a control plate for a lithographic device. The control plate manufactured with a method of the present invention is essentially composed of a semiconductor substrate having an opening for the passage of particle probes emanating from a multi-beam source and of a correspond ...


5
Bernhard Wagner, Wolfgang Benecke, Werner Riethmuller, Uwe Schnakenberg: Apparatus for measuring mechanical forces and force actions. Fraunhofer Gesellschaft zur Forderung der angewandten Forschung e V, Evenson McKeown Edwards & Lenahan, August 9, 1994: US05335544 (19 worldwide citation)

An apparatus for measuring mechanical forces and force actions by means of body, a restoring element and a movable mass, with elements for limiting the deflections of the movable mass. The movable mass is deflected against the resistance of the restoring element under the influence of a mechanical f ...


6
Wolfgang Benecke, Uwe Schnakenberg, Burkhard Lischke: Method for producing beam-shaping diaphragms for lithographic devices. Siemens Aktiengesellschaft, Hill Van Santen Steadman & Simpson, September 17, 1991: US05049460 (1 worldwide citation)

Methods for producing beam shaping diaphragms for lithographic devices in which a silicon layer is epitaxially deposited on a semiconductor body and the epitaxial layer is formed in the central region as a self-supporting membrane and is formed with preferably straight line-shaped quadratic recesses ...


7
Carsten Mueller, Ingo Klammer, Frank Kensy, Jochen Buechs, Mirko Hofmann, Andreas Buchenauer, Uwe Schnakenberg, Wilfried Mokwa: Microreactor array, device comprising a microreactor array, and method for using a microreactor array. m2p labs, Collard & Roe P C, January 13, 2015: US08932544

Disclosed are a method and a device for feeding and/or discharging fluids in microreactor arrays through one or several fluid ducts that extend into each individual microreactor and can be individually controlled and regulated, in order to control, regulate, influence, and/or verify processes. The f ...


8
Carsten Mueller, Ingo Klammer, Frank Kensy, Jochen Buechs, Mirko Hofmann, Andreas Buchenauer, Uwe Schnakenberg, Wilfried Mokwa: Microreactor array, Device Comprising a Microreactor array, and Method for Using a Microreactor Array. Collard & Roe PC, December 31, 2009: US20090320622-A1

Disclosed are a method and a device for feeding and/or discharging fluids in microreactor arrays through one or several fluid ducts that extend into each individual microreactor and can be individually controlled and regulated, in order to control, regulate, influence, and/or verify processes. The f ...


9
Thomas Schmitz Rode, Joachim Georg Pfeffer, Karl Michael Ruhl, Uwe Schnakenberg: Method of taking internal physiological measurements. Kf Ross PC, April 2, 2009: US20090088609-A1

The invention relates to a device for detecting physiological measured variables within the body, comprising a catheter which has a tip supporting a sensor and which can be introduced into a blood vessel, the catheter (1) being connected to a transponder unit (2) for wireless transmission of at leas ...



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