Patents by Inventor Uwe Schröder

Uwe Schröder 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).

  • Publication number: 20240252454
    Abstract: The present invention relates to a composition comprising at least one inhibitor of mitochondrial transcription (IMT) and at least one anti-cancer drug. Furthermore, the present invention is directed to compositions for use as a medicament and to compositions for use in the treatment and/or prevention of cancer.
    Type: Application
    Filed: May 2, 2022
    Publication date: August 1, 2024
    Inventors: Tim BERGBREDE, Raffaella DI LUCREZIA, Anke UNGER, Axel CHOIDAS, Bert KLEBL, Peter NUSSBAUMER, Sascha MENNINGER, Peter HABENBERGER, Gunther ZISCHINSKY, Uwe KOCH, Peter SCHRÖDER, Pavla JESTRABOVÁ, Lenka PALOVÁ-JELÍNKOVÁ, Klára DÁNOVÁ, Maria FALKENBERG-GUSTAFSSON, Laleh ARABANIAN, Claes GUSTAFSSON, Nils-Göran LARSSON, Lars PALMQVIST
  • Publication number: 20240260472
    Abstract: Described are thermal-to-electrical signal transducers including band-gap materials with a pinched or double hysteresis loop (DHL) charge-voltage characteristic in a pyroelectric device that have electrically switchable active (on) and inactive (off) pyroelectric states. DHL materials include field induced ferroelectrics (FFE), Kittel-type antiferroelectric (KAFE), defect-biased ferroelectric (DBFE), and ferroelastic switching (FES) materials. The pyroelectric device includes a material stack with a DHL material layer between two electrodes. A built-in electric field is required for the application of the device, which can be induced by electrodes having different workfunctions. Pyroelectric devices employing the DHL material stack include pyroelectric detectors, thermal imaging systems, infrared sensors, and energy harvesters.
    Type: Application
    Filed: February 1, 2023
    Publication date: August 1, 2024
    Inventors: Patrick Dominic Lomenzo, Uwe Schröder
  • Patent number: 10600808
    Abstract: An integrated circuit comprises a ferroelectric memory cell including an oxide storage layer, an electrode layer, and an interface layer. The oxide storage layer comprises a ferroelectric material that is at least partially in a ferroelectric state. The ferroelectric material comprises, as main components, oxygen and any of the group consisting of Hf, Zr and (Hf,Zr). The interface layer is disposed between the oxide storage layer and the electrode layer and includes at least one element with a higher valence value than Hf or Zr.
    Type: Grant
    Filed: September 5, 2017
    Date of Patent: March 24, 2020
    Assignee: NaMLab gGmbH
    Inventor: Uwe Schröder
  • Publication number: 20190074295
    Abstract: An integrated circuit comprises a ferroelectric memory cell including an oxide storage layer, an electrode layer, and an interface layer. The oxide storage layer comprises a ferroelectric material that is at least partially in a ferroelectric state. The ferroelectric material comprises, as main components, oxygen and any of the group consisting of Hf, Zr and (Hf,Zr). The interface layer is disposed between the oxide storage layer and the electrode layer and includes at least one element with a higher valence value than Hf or Zr.
    Type: Application
    Filed: September 5, 2017
    Publication date: March 7, 2019
    Inventor: Uwe SCHRÖDER
  • Patent number: 10095826
    Abstract: A method and apparatus for selecting Si wafer WP based on individual or multiple DFM decks for Si-feed-forward and Si-feed-back analysis are provided. Embodiments include generating markers for a wafer from an individual DFM deck; generating UCF Indexes; determining whether a representative marker corresponding to a UCF is a candidate for WP prediction; extracting markers corresponding to that UCF-Index (UEF data) from a candidate; performing a UCF-Index-based sampling on the extracted UEF data set if a number of markers in the extracted UEF data set is larger than an inspection requirement; adding a location of each marker or group of markers in the extracted UEF data set to a sitelist after the UCF-Index-based sampling; sending the sitelist to a foundry for metrology analysis on sitelist locations; and adding the sitelist locations and corresponding UCF Index and metrology parameters to a design analysis database for analyzing other wafers/UCF Indexes.
    Type: Grant
    Filed: June 16, 2016
    Date of Patent: October 9, 2018
    Assignee: GLOBALFOUNDRIES INC.
    Inventors: Shikha Somani, Sriram Madhavan, Thomas Herrmann, Stefan Schüler, Uwe Schroeder, Shobhit Malik, Eric Chiu
  • Patent number: 10056393
    Abstract: Integrated devices comprising pinched hysteresis loop (PHL) materials in a capacitor or a transistor stack are disclosed. PHL materials include field induced ferroelectrics (FFE), anti-ferroelectric (AFE) and relaxor type ferroelectric (RFE) materials. Each integrated device includes a material stack with a PHL material layer disposed between two electrodes. Application of this material is dependent on inducing of an electric field bias over the stack. According to one option, electrodes having different workfunction values can be employed to induce the required built-in bias field and enable use of PHL materials. According to another option, a PHL material and charges, e.g., a charge interlayer, are disposed between two electrodes such that an induced built-in bias field appears. Integrated devices employing the PHL material stack include memories, transistors, and piezo- and pyroelectric devices.
    Type: Grant
    Filed: March 1, 2016
    Date of Patent: August 21, 2018
    Assignee: NaMLab gGmbH
    Inventors: Uwe Schröder, Milan Pe{hacek over (s)}ić
  • Publication number: 20170364626
    Abstract: A method and apparatus for selecting Si wafer WP based on individual or multiple DFM decks for Si-feed-forward and Si-feed-back analysis are provided. Embodiments include generating markers for a wafer from an individual DFM deck; generating UCF Indexes; determining whether a representative marker corresponding to a UCF is a candidate for WP prediction; extracting markers corresponding to that UCF-Index (UEF data) from a candidate; performing a UCF-Index-based sampling on the extracted UEF data set if a number of markers in the extracted UEF data set is larger than an inspection requirement; adding a location of each marker or group of markers in the extracted UEF data set to a sitelist after the UCF-Index-based sampling; sending the sitelist to a foundry for metrology analysis on sitelist locations; and adding the sitelist locations and corresponding UCF Index and metrology parameters to a design analysis database for analyzing other wafers/UCF Indexes.
    Type: Application
    Filed: June 16, 2016
    Publication date: December 21, 2017
    Inventors: Shikha SOMANI, Sriram MADHAVAN, Thomas HERRMANN, Stefan SCHÜLER, Uwe SCHROEDER, Shobhit MALIK, Eric CHIU
  • Publication number: 20170256552
    Abstract: Integrated devices comprising pinched hysteresis loop (PHL) materials in a capacitor or a transistor stack are disclosed. PHL materials include field induced ferroelectrics (FFE), anti-ferroelectric (AFE) and relaxor type ferroelectric (RFE) materials. Each integrated device includes a material stack with a PHL material layer disposed between two electrodes. Application of this material is dependent on inducing of an electric field bias over the stack. According to one option, electrodes having different workfunction values can be employed to induce the required built-in bias field and enable use of PHL materials. According to another option, a PHL material and charges, e.g., a charge interlayer, are disposed between two electrodes such that an induced built-in bias field appears. Integrated devices employing the PHL material stack include memories, transistors, and piezo- and pyroelectric devices.
    Type: Application
    Filed: March 1, 2016
    Publication date: September 7, 2017
    Inventors: Uwe SCHRÖDER, Milan PESIC
  • Publication number: 20170242685
    Abstract: The present disclosure provides a first method for updating firmware of a computer system, which is embedded in a technical device, wherein the technical device has a volatile memory module, wherein the technical device has a non-volatile memory module, in which a firmware update package is stored, wherein the firmware update package contains individual files and associated first checksums, wherein the method runs through the following steps in the specified sequence: a restart (G), a subsequent booting of the computer system (H), and checking if an indicator file exists in the non-volatile memory module (I). Also provided is a second method for updating firmware of the computer system, which is embedded in a technical device, wherein the method runs through the following steps in the specified sequence: a restart (G), a subsequent booting of the computer system (H), and a check as to whether an indicator file exists in the non-volatile memory module (I).
    Type: Application
    Filed: October 21, 2015
    Publication date: August 24, 2017
    Applicant: Harting Electric GmbH & Co., KG
    Inventors: Klaus Sperlich, Dieter Gramsch, Juri Helbling, Uwe Schroeder
  • Patent number: 9437420
    Abstract: A capacitor can include a crystallized metal oxide dielectric layer having a first dielectric constant and an amorphous metal oxide dielectric layer, on the crystallized metal oxide dielectric layer, where the amorphous metal oxide dielectric layer has a second dielectric constant that is less than the first dielectric constant and is greater than a dielectric constant of aluminum oxide.
    Type: Grant
    Filed: April 16, 2015
    Date of Patent: September 6, 2016
    Assignees: Samsung Electronics Co., Ltd., NaMLab gGmbH
    Inventors: Kyu-Ho Cho, Youn-Soo Kim, Han-Jin Lim, Steve Knebel, Uwe Schroeder
  • Publication number: 20150357399
    Abstract: A capacitor can include a crystallized metal oxide dielectric layer having a first dielectric constant and an amorphous metal oxide dielectric layer, on the crystallized metal oxide dielectric layer, where the amorphous metal oxide dielectric layer has a second dielectric constant that is less than the first dielectric constant and is greater than a dielectric constant of aluminum oxide.
    Type: Application
    Filed: April 16, 2015
    Publication date: December 10, 2015
    Inventors: Kyu-Ho Cho, Youn-Soo Kim, Han-Jin Lim, Steve Knebel, Uwe Schroeder
  • Patent number: 9053802
    Abstract: An integrated circuit includes a ferroelectric memory cell. In one embodiment, the ferroelectric memory cell includes a first oxide storage layer, a second oxide storage layer, and an amorphous layer disposed between the first and second oxide storage layers. Each of the first and second oxide storage layers includes a ferroelectric material that is at least partially in a ferroelectric state and further includes, as main components, oxygen and any of the group consisting of Hf, Zr and (Hf,Zr).
    Type: Grant
    Filed: June 4, 2013
    Date of Patent: June 9, 2015
    Assignee: NaMLab gGmbH
    Inventors: Stefan Ferdinand Müller, Ekaterina Yurchuk, Uwe Schröder
  • Publication number: 20140355328
    Abstract: An integrated circuit includes a ferroelectric memory cell. In one embodiment, the ferroelectric memory cell includes a first oxide storage layer, a second oxide storage layer, and an amorphous layer disposed between the first and second oxide storage layers. Each of the first and second oxide storage layers includes a ferroelectric material that is at least partially in a ferroelectric state and further includes, as main components, oxygen and any of the group consisting of Hf, Zr and (Hf,Zr).
    Type: Application
    Filed: June 4, 2013
    Publication date: December 4, 2014
    Inventors: Stefan Ferdinand Müller, Ekaterina Yurchuk, Uwe Schröder
  • Patent number: 8344438
    Abstract: The present invention refers to an electrode comprising a first metallic layer and a compound comprising at least one of a nitride, oxide, and oxynitride of a second metallic material.
    Type: Grant
    Filed: January 31, 2008
    Date of Patent: January 1, 2013
    Assignee: Qimonda AG
    Inventors: Uwe Schroeder, Stefan Jakschik, Johannes Heitmann, Tim Boescke, Annette Saenger
  • Patent number: 7939137
    Abstract: The invention relates to a method and a device for producing parts (1) having a sealing layer (2) on the surface, and corresponding parts. Said method and device are improved in that the sealing layer (2) is applied to the surface in the form of a water-free and solvent-free reactive hot melt layer based on polyurethane and hardened by atmospheric humidity, and the inventive device comprises an application station (6), a transport device (5) and a smoothing station (8).
    Type: Grant
    Filed: May 16, 2002
    Date of Patent: May 10, 2011
    Assignee: Klebchemie M.G. Becker GmbH & Co. KG
    Inventors: Klaus Becker-Weimann, Oliver Büker, Uwe Schroeder
  • Patent number: 7723771
    Abstract: A capacitor structure comprises a first and a second electrode of conducting material. Between the first and second electrodes, an atomic layer deposited dielectric film is disposed, which comprises zirconium oxide and a dopant oxide. Herein, the dopant comprises an ionic radius that differs by more than 24 pm from an ionic radius of zirconium, while the dielectric film comprises a dopant content of 10 atomic percent or less of the dielectric film material excluding oxygen. A process for fabricating a capacitor comprises a step of forming a bottom electrode of the capacitor. On the bottom electrode, a dielectric film comprising zirconium oxide is deposited, and a step for introducing a dopant oxide into the dielectric film performed. On the dielectric structure, a top electrode is formed.
    Type: Grant
    Filed: March 30, 2007
    Date of Patent: May 25, 2010
    Assignee: Qimonda AG
    Inventors: Tim Boescke, Uwe Schroeder
  • Patent number: 7666752
    Abstract: The present invention relates to a method for depositing a dielectric material comprising a transition metal compound. After providing a substrate, a first pre-cursor comprising a transition metal compound and a second pre-cursor predominantly comprising at least one of water vapour, ammonia and hydrazine are successively applied on the substrate for forming a first layer of transition metal containing material. In a next step the first pre-cursor and a third pre-cursor comprising at least one of ozone and oxygen are successively applied on the first layer for forming a second layer of the transition metal containing material.
    Type: Grant
    Filed: January 19, 2007
    Date of Patent: February 23, 2010
    Assignee: Qimonda AG
    Inventors: Stephan Kudelka, Lars Oberbeck, Uwe Schroeder, Tim Boescke, Johannes Heitmann, Annette Saenger, Joerg Schumann, Elke Erben
  • Publication number: 20090194410
    Abstract: The present invention refers to an electrode comprising a first metallic layer and a compound comprising at least one of a nitride, oxide, and oxynitride of a second metallic material.
    Type: Application
    Filed: January 31, 2008
    Publication date: August 6, 2009
    Inventors: Uwe Schroeder, Stefan Jakschik, Johannes Heitmann, Tim Boescke, Annette Saender
  • Patent number: 7531406
    Abstract: An electrical component, such as a DRAM semiconductor memory or a field-effect transistor is fabricated. At least one capacitor having a dielectric (130) and at least one connection electrode (120, 140) are fabricated. To enable the capacitors fabricated to have optimum storage properties even for very small capacitor structures, the dielectric (130) or the connection electrode (120, 140) are formed in such a manner that transient polarization effects are prevented or at least reduced.
    Type: Grant
    Filed: April 7, 2006
    Date of Patent: May 12, 2009
    Assignee: Infineon Technologies AG
    Inventors: Alejandro Avellan, Thomas Hecht, Stefan Jakschik, Uwe Schroeder
  • Publication number: 20080237791
    Abstract: A capacitor structure comprises a first and a second electrode of conducting material. Between the first and second electrodes, an atomic layer deposited dielectric film is disposed, which comprises zirconium oxide and a dopant oxide. Herein, the dopant comprises an ionic radius that differs by more than 24 pm from an ionic radius of zirconium, while the dielectric film comprises a dopant content of 10 atomic percent or less of the dielectric film material excluding oxygen. A process for fabricating a capacitor comprises a step of forming a bottom electrode of the capacitor. On the bottom electrode, a dielectric film comprising zirconium oxide is deposited, and a step for introducing a dopant oxide into the dielectric film performed. On the dielectric structure, a top electrode is formed.
    Type: Application
    Filed: March 30, 2007
    Publication date: October 2, 2008
    Inventors: Tim Boescke, Uwe Schroeder