Patents by Inventor Peter Brückner

Peter Brückner 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: 9461121
    Abstract: A process for producing a doped III-N bulk crystal, wherein III denotes at least one element of the main group III of the periodic system, selected from Al, Ga and In, wherein the doped crystalline III-N layer or the doped III-N bulk crystal is deposited on a substrate or template in a reactor, and wherein the feeding of at least one dopant into the reactor is carried out in admixture with at least one group III material. In this manner, III-N bulk crystals and III-N single crystal substrates separated therefrom can be obtained with a very homogeneous distribution of dopants in the growth direction as well as in the growth plane perpendicular thereto, a very homogeneous distribution of charge carriers and/or of the specific electric resistivity in the growth direction as well as in the growth plane perpendicular thereto, and a very good crystal quality.
    Type: Grant
    Filed: February 5, 2014
    Date of Patent: October 4, 2016
    Assignee: FREIBERGER COMPOUND MATERIALS GMBH
    Inventors: Ferdinand Scholz, Peter Brückner, Frank Habel, Gunnar Leibiger
  • Patent number: 9115444
    Abstract: An epitaxial growth process for producing a thick III-N layer, wherein III denotes at least one element of group III of the periodic table of elements, is disclosed, wherein a thick III-N layer is deposited above a foreign substrate. The epitaxial growth process preferably is carried out by HVPE. The substrate can also be a template comprising the foreign substrate and at least one thin III-N intermediate layer. The surface quality is improved by providing a slight intentional misorientation of the substrate, and/or a reduction of the N/III ratio and/or the reactor pressure towards the end of the epitaxial growth process. Substrates and semiconductor devices with such improved III-N layers are also disclosed.
    Type: Grant
    Filed: October 1, 2010
    Date of Patent: August 25, 2015
    Assignees: FREIBERGER COMPOUND MATERIALS GMBH, OSRAM OPTO SEMICONDUCTORS GMBH
    Inventors: Ferdinand Scholz, Peter Brückner, Frank Habel, Matthias Peter, Klaus Köhler
  • Patent number: 8778078
    Abstract: A process for producing a doped III-N bulk crystal, wherein III denotes at least one element of the main group III of the periodic system, selected from Al, Ga and In, wherein the doped crystalline III-N layer or the doped III-N bulk crystal is deposited on a substrate or template in a reactor, and wherein the feeding of at least one dopant into the reactor is carried out in admixture with at least one group III material. In this manner, III-N bulk crystals and III-N single crystal substrates separated therefrom can be obtained with a very homogeneous distribution of dopants in the growth direction as well as in the growth plane perpendicular thereto, a very homogeneous distribution of charge carriers and/or of the specific electric resistivity in the growth direction as well as in the growth plane perpendicular thereto, and a very good crystal quality.
    Type: Grant
    Filed: August 8, 2007
    Date of Patent: July 15, 2014
    Assignee: Freiberger Compound Materials GmbH
    Inventors: Ferdinand Scholz, Peter Brückner, Frank Habel, Gunnar Leibiger
  • Publication number: 20140151716
    Abstract: A process for producing a doped III-N bulk crystal, wherein III denotes at least one element of the main group III of the periodic system, selected from Al, Ga and In, wherein the doped crystalline III-N layer or the doped III-N bulk crystal is deposited on a substrate or template in a reactor, and wherein the feeding of at least one dopant into the reactor is carried out in admixture with at least one group III material. In this manner, III-N bulk crystals and III-N single crystal substrates separated therefrom can be obtained with a very homogeneous distribution of dopants in the growth direction as well as in the growth plane perpendicular thereto, a very homogeneous distribution of charge carriers and/or of the specific electric resistivity in the growth direction as well as in the growth plane perpendicular thereto, and a very good crystal quality.
    Type: Application
    Filed: February 5, 2014
    Publication date: June 5, 2014
    Applicant: FREIBERGER COMPOUND MATERIALS GmbH
    Inventors: Ferdinand SCHOLZ, Peter Brückner, Frank Habel, Gunnar Leibiger
  • Patent number: 8366865
    Abstract: The invention relates to an adhesive system which is based on a non-reactive thermoplastic adhesive melt. The adhesive melt (A) contains a mixture of at least two metallocene-catalytically produced copolymers which are different from each other, and which are based on at least two a-olefins, whereby the copolymers of the mixture, which are different from each other, have different melt indices (MFIs); (B) optionally, at least one additional polymer; and (C) optionally, at least one resin and/or at least one wax. The inventive adhesive system is particularly suitable for use in the wood and furniture industry, e.g. for covering profiles or for gluing edges, in particular, by comparing copolymer adhesives to EVA melt adhesives which are used in a traditional manner, and the system enables considerably lower application temperatures to be used, and at the same time exhibiting improved adhesion capacity.
    Type: Grant
    Filed: March 10, 2006
    Date of Patent: February 5, 2013
    Assignee: Jowat AG
    Inventors: Christian Terfloth, Felix Starck, Peter Brückner
  • Patent number: 7998273
    Abstract: An epitaxial growth process for producing a thick III-N layer, wherein III denotes at least one element of group III of the periodic table of elements, is disclosed, wherein a thick III-N layer is deposited above a foreign substrate. The epitaxial growth process preferably is carried out by HVPE. The substrate can also be a template comprising the foreign substrate and at least one thin III-N intermediate layer. The surface quality is improved by providing a slight intentional misorientation of the substrate, and/or a reduction of the N/III ratio and/or the reactor pressure towards the end of the epitaxial growth process. Substrates and semiconductor devices with such improved III-N layers are also disclosed.
    Type: Grant
    Filed: May 5, 2006
    Date of Patent: August 16, 2011
    Assignees: Freiberger Compound Materials GmbH, Osram Opto Semiconductors GmbH
    Inventors: Ferdinand Scholz, Peter Brückner, Frank Habel, Matthias Peter, Klaus Köhler
  • Publication number: 20110018106
    Abstract: An epitaxial growth process for producing a thick III-N layer, wherein III denotes at least one element of group III of the periodic table of elements, is disclosed, wherein a thick III-N layer is deposited above a foreign substrate. The epitaxial growth process preferably is carried out by HVPE. The substrate can also be a template comprising the foreign substrate and at least one thin III-N intermediate layer. The surface quality is improved by providing a slight intentional misorientation of the substrate, and/or a reduction of the N/III ratio and/or the reactor pressure towards the end of the epitaxial growth process. Substrates and semiconductor devices with such improved III-N layers are also disclosed.
    Type: Application
    Filed: October 1, 2010
    Publication date: January 27, 2011
    Inventors: Ferdinand SCHOLZ, Peter Brückner, Frank Habel, Matthias Peter, Klaus Köhler
  • Patent number: 7727332
    Abstract: In a process for forming a mask material on a III-N layer, wherein III denotes an element of the group III of the Periodic Table of Elements, selected from Al, Ga and In, a III-N layer having a surface is provided which comprises more than one facet. Mask material is selectively deposited only on one or multiple, but not on all facets. The deposition of mask material may be particularly carried out during epitaxial growth of a III-N layer under growth conditions, by which (i) growth of at least a further III-N layer selectively on a first type or a first group of facet(s) and (ii) a deposition of mask material selectively on a second type or a second group of facet(s) proceed simultaneously. By the process according to the invention, it is possible to produce free-standing thick III-N layers. Further, semiconductor devices or components having special structures and layers can be produced.
    Type: Grant
    Filed: December 21, 2006
    Date of Patent: June 1, 2010
    Assignee: Freiberger Compound Materials GmbH
    Inventors: Frank Habel, Ferdinand Scholz, Barbara Neubert, Peter Brückner, Thomas Wunderer