Patents by Inventor Claas Mueller

Claas Mueller has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 10005103
    Abstract: A method for producing finely structured surfaces, in particular in plastics, includes a) applying at least one coating compound on at least one substrate; b) forming a fine structure by a die, which has the negative of a fine structure, c) curing the resultant finely structured coating compound, obtaining a substantially cured coating; and d) separating the finely structured coating from the die, wherein steps d) and c) can also be carried out in the reverse order.
    Type: Grant
    Filed: July 6, 2011
    Date of Patent: June 26, 2018
    Assignee: Leibniz-Institut fuer Neue Materialien gemeinnuetzige GmbH
    Inventors: Eduard Arzt, Elmar Kroner, Peter William de Oliveira, Ebru Devrim Sam, Florian Buesch, Dieter Urban, Reinhold Schwalm, Benedikt Blaesi, Michael Nitsche, Hannes Spiecker, Claas Mueller
  • Patent number: 9543606
    Abstract: The present invention pertains to a fuel cell with a storage unit (4) for storing hydrogen (Hx), with a proton conductive layer, which covers a surface of the storage unit (4), and with a cathode (7) on a side of the proton conductive layer, which side is located opposite, wherein the storage unit (4) is directly coupled with an anode and/or the storage unit (4) is incorporated in a substrate (1) of a semiconductor. The storage unit (4) is preferably connected to the substrate (1) at least via a stress compensation layer (3).
    Type: Grant
    Filed: March 21, 2014
    Date of Patent: January 10, 2017
    Assignee: Micronas GmbH
    Inventors: Mirko Lehmann, Claas Mueller, Holger Reinecke, Mirko Frank, Gilbert Erdler
  • Patent number: 9093690
    Abstract: The invention relates to a sensor fuel cell that can be activated by a first substance (O2) in its environment. The sensor fuel cell includes a catalytically active anode, a cathode that has a cathode surface at least partially exposed to the environment, and a proton-conductive membrane located between the anode and the cathode so as to convey protons through from the anode to the cathode. An anode surface of the anode is at least partially exposed to the environment for access of at least one second substance (H2) from the environment to the anode. Such a disposition enables access of a first reactant in the form for example of oxygen from the ambient air to the cathode, and additionally access of a second reactant in the form for example of hydrogen from the ambient air to the free surface of the anode.
    Type: Grant
    Filed: November 6, 2008
    Date of Patent: July 28, 2015
    Assignee: Micronas GmbH
    Inventors: Gilbert Erdler, Holger Reinecke, Claas Mueller, Mirko Frank
  • Publication number: 20140205927
    Abstract: The present invention pertains to a fuel cell with a storage unit (4) for storing hydrogen (Hx), with a proton conductive layer, which covers a surface of the storage unit (4), and with a cathode (7) on a side of the proton conductive layer, which side is located opposite, wherein the storage unit (4) is directly coupled with an anode and/or the storage unit (4) is incorporated in a substrate (1) of a semiconductor. The storage unit (4) is preferably connected to the substrate (1) at least via a stress compensation layer (3).
    Type: Application
    Filed: March 21, 2014
    Publication date: July 24, 2014
    Applicant: Micronas GmbH
    Inventors: Mirko LEHMANN, Claas MUELLER, Holger REINECKE, Mirko FRANK, Gilbert ERDLER
  • Patent number: 8592091
    Abstract: 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.
    Type: Grant
    Filed: January 10, 2011
    Date of Patent: November 26, 2013
    Assignee: Micronas GmbH
    Inventors: Gilbert Erdler, Holger Reinecke, Mirko Frank, Claas Mueller, Jochen Kerres
  • Publication number: 20130101796
    Abstract: A method for producing finely structured surfaces, in particular in plastics, includes a) applying at least one coating compound on at least one substrate; b) forming a fine structure by a die, which has the negative of a fine structure, c) curing the resultant finely structured coating compound, obtaining a substantially cured coating; and d) separating the finely structured coating from the die, wherein steps d) and c) can also be carried out in the reverse order.
    Type: Application
    Filed: July 6, 2011
    Publication date: April 25, 2013
    Applicant: BASF SE
    Inventors: Eduard Arzt, Elmar Kroner, Peter William de Oliveira, Ebru Devrim Sam, Florian Buesch, Dieter Urban, Reinhold Schwalm, Benedikt Blaesi, Michael Nitsche, Hannes Spiecker, Claas Mueller
  • Publication number: 20120021323
    Abstract: The invention relates to a fuel cell (1) having a substrate (2) comprising an opening (10) and a layer stack (7) disposed on the substrate (2). Said stack comprises an electrode (3) designed as a self-supporting metal membrane covering the opening (10), said membrane being permeable to hydrogen atoms and blocking the passage of gaseous or liquid fuel, a counter electrode (6), and an electrolytelayer (4) adjoining a catalytic material and disposed between the electrode (3) and the counter electrotrode (6). In order to feed in a fuel comprising protons, the fuel cell (1) has a fuel supply device (14) connected to the electrode (3) by means of the opening (10). In order to feed in a reactant, a reactant supply device (15) is connected to the electrolyte layer (4) by means of the counter electrode (6). The reactant is suitable for reacting with the protons in order to generate electric current.
    Type: Application
    Filed: December 16, 2009
    Publication date: January 26, 2012
    Inventors: Gilbert Erdler, Mirko Frank, Holger Reinecke, Claas Mueller
  • Publication number: 20110217659
    Abstract: 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.
    Type: Application
    Filed: January 10, 2011
    Publication date: September 8, 2011
    Inventors: Gilbert ERDLER, Holger Reinecke, Mirko Frank, Claas Mueller, Jochen Kerres
  • Publication number: 20100160940
    Abstract: 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.
    Type: Application
    Filed: December 17, 2009
    Publication date: June 24, 2010
    Applicants: Aesculap AG, Albert-Ludwigs-Universitaet Freiburg
    Inventors: Theodor Lutze, Dirk Schauer, Alexander Disch, Holger Reinecke, Claas Mueller
  • Publication number: 20090136815
    Abstract: The invention relates to a sensor fuel cell that can be activated by a first substance (O2) in its environment. The sensor fuel cell includes a catalytically active anode, a cathode that has a cathode surface at least partially exposed to the environment, and a proton-conductive membrane located between the anode and the cathode so as to convey protons through from the anode to the cathode. An anode surface of the anode is at least partially exposed to the environment for access of at least one second substance (H2) from the environment to the anode. Such a disposition enables access of a first reactant in the form for example of oxygen from the ambient air to the cathode, and additionally access of a second reactant in the form for example of hydrogen from the ambient air to the free surface of the anode.
    Type: Application
    Filed: November 6, 2008
    Publication date: May 28, 2009
    Inventors: Gilbert Erdler, Holger Reinecke, Claas Mueller, Mirko Frank