Patents by Inventor Dominik Baumann
Dominik Baumann 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).
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Publication number: 20250043180Abstract: A luminophore with the general formula Sr1-bBabLi3Al1-xGaxO4-yNy:Eu is provided, where 0?b?1, 0<x?1 and 0?y?1. A luminophore mixture containing at least two luminophores selected from the group consisting of a luminophore (1) having the general formula Sr1-bBabLi3Al1-xGaxO4-yNy:Eu, where 0?b?1, 0<x?1 and 0?y?1, which crystallizes in a triclinic crystal structure, a luminophore (1) having the general formula Sr1-bBabLi3Al1-xGaxO4-yNy:Eu, where 0?b 1, 0<x?1 and 0?y?1, which crystallizes in a monoclinic crystal structure, and a luminophore (1) having the general formula Sr1-bBabLi3Al1-xGaxO4-yNy:Eu, where 0?b?1, 0<x?1 and 0?y?1, which crystallizes in a tetragonal crystal structure is also provided.Type: ApplicationFiled: December 6, 2022Publication date: February 6, 2025Inventors: Mark VORSTHOVE, Christiane STOLL, Daniel BICHLER, Dominik BAUMANN, Frauke PHILIPP, Simon DALLMEIR
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Patent number: 12152185Abstract: A luminophore having the empirical formula A3M*OxF9-2x:Mn4+ where A may be or include Li, Na, Rb, K, Cs, or combinations thereof. M* may be or include Cr, Mo, W, or combinations thereof. x may be or include 0<x<4.5.Type: GrantFiled: May 11, 2020Date of Patent: November 26, 2024Assignee: OSRAM Opto Semiconductors GmbHInventors: Markus Seibald, Dominik Baumann, Christiane Stoll, Ion Stoll, Hubert Huppertz, Gunter Heymann, Klaus Wurst
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Publication number: 20240067877Abstract: A lighting device includes a phosphor having the general molecular formula (MA)a(MB)b(MC)c(MD)d(TA)e(TB)f(TC)g(TD)h(TE)i(TF)j(XA)k(XB)l(XC)m(X D)n:E. MA is selected from a group of monovalent metals, MB is selected from a group of divalent metals, MC is selected from a group of trivalent metals, MD is selected from a group of tetravalent metals, TA is selected from a group of monovalent metals, TB is selected from a group of divalent metals, TC is selected from a group of trivalent metals, TD is selected from a group of tetravalent metals, TE is selected from a group of pentavalent elements, TF is selected from a group of hexavalent elements, XA is selected from a group of elements which comprises halogens, XB is selected from a group of elements which comprises O, S and combinations thereof, XC=N and XD=C and E=Eu, Ce, Yb and/or Mn.Type: ApplicationFiled: November 6, 2023Publication date: February 29, 2024Inventors: Markus SEIBALD, Simon PESCHKE, Gregor HOERDER, Gina Maya ACHRAINER, Klaus WURST, Dominik BAUMANN, Tim FIEDLER, Stefan LANGE, Hubert HUPPERTZ, Daniel DUTZLER, Thorsten SCHROEDER, Daniel BICHLER, Gudrun PLUNDRICH
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Patent number: 11851596Abstract: A lighting device is specified. The lighting device comprises a phosphor having the general molecular formula (MA)a(MB)b(MC)c(MD)d(TA)e(TB)f(TC)g(TD)h(TE)i(TF)j(XA)k(XB)l(XC)m(XD)n:E. In this case, MA is selected from a group of monovalent metals, MB is selected from a group of divalent metals, MC is selected from a group of trivalent metals, MD is selected from a group of tetravalent metals, TA is selected from a group of monovalent metals, TB is selected from a group of divalent metals, TC is selected from a group of trivalent metals, TD is selected from a group of tetravalent metals, TE is selected from a group of pentavalent elements, TF is selected from a group of hexavalent elements, XA is selected from a group of elements which comprises halogens, XB is selected from a group of elements which comprises O, S and combinations thereof, XC=N and XD=C and E=Eu, Ce, Yb and/or Mn. The following furthermore hold true: a+b+c+d=t; e+f+g+h+i+j=u; k+l+m+n=v; a+2b+3c+4d+e+2f+3g+4h+5i+6j?k?2l?3m?4n=w; 0.8?t?1; ?3.Type: GrantFiled: June 10, 2022Date of Patent: December 26, 2023Assignee: OSRAM OLED GmbHInventors: Markus Seibald, Simon Peschke, Gregor Hoerder, Gina Maya Achrainer, Klaus Wurst, Dominik Baumann, Tim Fiedler, Stefan Lange, Hubert Huppertz, Daniel Dutzler, Thorsten Schroeder, Daniel Bichler, Gudrun Plundrich
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Publication number: 20230159822Abstract: A luminescent material may have an empirical formula A1-yA?yLiXF6:Mn4+, where: A=Na, K, Rb, Cs, or combinations thereof; A?=Na, K, Rb, Li, Cs, or combinations thereof; X=Si, Ti, Hf, Zr, Sn, Pb, Ge, or combinations thereof; 0?y<1; and A and A? are selected differently.Type: ApplicationFiled: April 16, 2021Publication date: May 25, 2023Inventors: Markus SEIBALD, Dominik BAUMANN, Christiane STOLL, Hubert HUPPERTZ, Gunter HEYMANN
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Publication number: 20230151272Abstract: A luminophore may have the general formula A2EZzXx:RE, where: A is selected from the group of the monovalent elements; E is selected from the group of the tetravalent, pentavalent, or hexavalent elements; Z is selected from the group of the divalent elements; X is selected from the group of the monovalent elements; RE is selected from activator elements; 2+e=2z+x, with the charge number e of the element E; and x+z=5 and z>0. A process is also disclosed that is directed to producing the luminophore and a corresponding radiation-emitting component.Type: ApplicationFiled: April 21, 2021Publication date: May 18, 2023Inventors: Markus Seibald, Dominik Baumann, Christiane Stoll, Hubert Huppertz, Klaus Wurst
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Publication number: 20230142453Abstract: A radiation-emitting component may include a semiconductor chip and a conversion element. The semiconductor chip may be configured to emit electromagnetic radiation in a first wavelength range in the blue spectral region. The conversion element may have a first luminophore and a second luminophore. The first luminophore may be configured to emit electromagnetic radiation in the first wavelength range to electromagnetic radiation in a second wavelength range in the green spectral region. The second luminophore may be configured to convert at least electromagnetic radiation in the first wavelength range to electromagnetic radiation of a third wavelength range in the red spectral region.Type: ApplicationFiled: April 1, 2021Publication date: May 11, 2023Inventors: Dominik BAUMANN, Markus SEIBALD, Stefan LANGE, Frank JERMANN
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Patent number: 11639465Abstract: A phosphor is specified. The phosphor has the general molecular formula: (MA)a(MB)b(MC)c(MD)d(TA)e(TB)f(TC)g(TD)h(TE)i(TF)j(XA)k(XB)l(XC)m(XD)n:E. In this case, MA is selected from a group of monovalent metals, MB is selected from a group of divalent metals, MC is selected from a group of trivalent metals, MD is selected from a group of tetravalent metals, TA is selected from a group of monovalent metals, TB is selected from a group of divalent metals, TC is selected from a group of trivalent metals, TD is selected from a group of tetravalent metals, TE is selected from a group of pentavalent elements, TF is selected from a group of hexavalent elements, XA is selected from a group of elements which comprises halogens, XB is selected from a group of elements which comprises O, S and combinations thereof, -E=Eu, Ce, Yb and/or Mn, XC?N and XD=C. The following furthermore hold true: a+b+c+d=t; e+f+g+h+i+j=u; k+l+m+n=v; a+2b+3c+4d+e+2f+3g+4h+5i+6j?k?2l?3m?4n=w; 0.8?t?1; 3.5?u?4; 3.5?v?4; (?0.2)?w?0.2 and 0?m<0.Type: GrantFiled: November 28, 2018Date of Patent: May 2, 2023Assignee: OSRAM OLED GMBHInventors: Markus Seibald, Dominik Baumann, Tim Fiedler, Stefan Lange, Hubert Huppertz, Daniel Dutzler, Thorsten Schroeder, Daniel Bichler, Gudrun Plundrich, Simon Peschke, Gregor Hoerder, Gina Maya Achrainer, Klaus Wurst
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Publication number: 20230123606Abstract: A luminophore may have the general molecular formula NavKxRbyLizCsw (Li3SiO4)4:E, where: v+x+y+z+w = 4; 0 < v < 4; 0 < x < 4; 0 < y < 4; 0 < z < 4; 0 < w < 4; and E = Eu, Ce, Yb, Mn, or combinations thereof.Type: ApplicationFiled: March 30, 2021Publication date: April 20, 2023Inventors: Dominik BAUMANN, Simon PESCHKE, Philipp SCHMID
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Publication number: 20230100663Abstract: A luminophore may have the general formula AzEeX6:RE, where A is selected from bivalent elements, E is selected from tetravalent elements, X is selected from monovalent elements, and RE is selected from activator elements. In addition, 0.9?z?1.1, and 0.9?e?1.1. A method for producing such a luminophore is also disclosed. A radiation-emitting component may further include the luminophore.Type: ApplicationFiled: March 15, 2021Publication date: March 30, 2023Inventors: Dominik BAUMANN, Markus SEIBALD, Stefan LANGE, Jascha BANDEMEHR, Florian KRAUS
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Patent number: 11613697Abstract: A phosphor may have the empirical formula: (AB)1+x+2yAl11?x?y(AC)xLiyO17:E, where 0<x+y<11; AC=Mg, Ca, Sr, Ba and/or Zn; AB=Na, K, Rb, and/or Cs; and E=Eu, Ce, Yb, and/or Mn. The phosphor may be used in conversion LED components.Type: GrantFiled: September 27, 2018Date of Patent: March 28, 2023Assignee: OSRAM Opto Semiconductors GmbHInventors: Alexey Marchuk, Dominik Baumann
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Patent number: 11566174Abstract: A phosphor is specified. The phosphor has the general molecular formula: (MA)a(MB)b(MC)c(MD)d(TA)e(TB)f(TC)g(TD)h(TE)i(TF)j(XA)k(XB)l(XC)m(XD)n:E. In this case, MA is selected from a group of monovalent metals, MB is selected from a group of divalent metals, MC is selected from a group of trivalent metals, MD is selected from a group of tetravalent metals, TA is selected from a group of monovalent metals, TB is selected from a group of divalent metals, TC is selected from a group of trivalent metals, TD is selected from a group of tetravalent metals, TE is selected from a group of pentavalent elements, TF is selected from a group of hexavalent elements, XA is selected from a group of elements which comprises halogens, XB is selected from a group of elements which comprises O, S and combinations thereof, -E=Eu, Ce, Yb and/or Mn, XC=N and XD=C. The following furthermore hold true: a+b+c+d=t; e+f+g+h+i+j=u; k+l+m+n=v; a+2b+3c+4d+e+2f+3g+4h+5i+6j?k?2l?3m?4n=w; 0.8?t?1; 3.5?u?4; 3.5?v?4; (?0.2)?w?0.Type: GrantFiled: August 10, 2017Date of Patent: January 31, 2023Assignee: OSRAM OLED GMBHInventors: Markus Seibald, Dominik Baumann, Tim Fiedler, Stefan Lange, Hubert Huppertz, Daniel Dutzler, Thorsten Schroeder, Daniel Biehler, Simon Peschke
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Publication number: 20220315836Abstract: A lighting device is specified. The lighting device comprises a phosphor having the general molecular formula (MA)a(MB)b(MC)c(MD)d(TA)e(TB)f(TC)g(TD)h(TE)i(TF)j(XA)k(XB)l(XC)m(XD)n:E. In this case, MA is selected from a group of monovalent metals, MB is selected from a group of divalent metals, MC is selected from a group of trivalent metals, MD is selected from a group of tetravalent metals, TA is selected from a group of monovalent metals, TB is selected from a group of divalent metals, TC is selected from a group of trivalent metals, TD is selected from a group of tetravalent metals, TE is selected from a group of pentavalent elements, TF is selected from a group of hexavalent elements, XA is selected from a group of elements which comprises halogens, XB is selected from a group of elements which comprises O, S and combinations thereof, XC=N and XD=C and E=Eu, Ce, Yb and/or Mn. The following furthermore hold true: a+b+c+d=t; e+f+g+h+i+j=u; k+l+m+n=v; a+2b+3c+4d+e+2f+3g+4h+5i+6j?k?2l?3m?4n=w; 0.8?t?1; ?3.Type: ApplicationFiled: June 10, 2022Publication date: October 6, 2022Inventors: Markus Seibald, Dominik Baumann, Tim Fiedler, Stefan Lange, Hubert Huppertz, Daniel Dutzler, Thorsten Schroeder, Daniel Bichler, Gudrun Plundrich, Simon Peschke, Gregor Hoerder, Gina Maya Achrainer, Klaus Wurst
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Patent number: 11453822Abstract: A lighting device is specified. The lighting device comprises a phosphor having the general molecular formula (MA)a(MB)b(MC)c(MD)d(TA)e(TB)f(TC)g(TD)h(TE)i(TF)j(XA)k(XB)l(XC)m(XD)n:E. In this case, MA is selected from a group of monovalent metals, MB is selected from a group of divalent metals, MC is selected from a group of trivalent metals, MD is selected from a group of tetravalent metals, TA is selected from a group of monovalent metals, TB is selected from a group of divalent metals, TC is selected from a group of trivalent metals, TD is selected from a group of tetravalent metals, TE is selected from a group of pentavalent elements, TF is selected from a group of hexavalent elements, XA is selected from a group of elements which comprises halogens, XB is selected from a group of elements which comprises O, S and combinations thereof, XC=N and XD=C and E=Eu, Ce, Yb and/or Mn. The following furthermore hold true: a+b+c+d=t; e+f+g+h+i+j=u; k+l+m+n=v; a+2b+3c+4d+e+2f+3g+4h+5i+6j?k?2l?3m?4n=w; 0.8?t?1; ?3.Type: GrantFiled: July 13, 2020Date of Patent: September 27, 2022Assignee: OSRAM OLED GMBHInventors: Markus Seibald, Dominik Baumann, Tim Fiedler, Stefan Lange, Hubert Huppertz, Daniel Dutzler, Thorsten Schroeder, Daniel Bichler, Gudrun Plundrich, Simon Peschke, Gregor Hoerder, Gina Maya Achrainer, Klaus Wurst
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Publication number: 20220220375Abstract: A luminophore having the empirical formula A3M*OxF9?2x:Mn4+ where A may be or include Li, Na, Rb, K, Cs, or combinations thereof. M* may be or include Cr, Mo, W, or combinations thereof. x may be or include 0<x<4.5.Type: ApplicationFiled: May 11, 2020Publication date: July 14, 2022Inventors: Markus SEIBALD, Dominik BAUMANN, Christiane STOLL, Ion STOLL, Hubert HUPPERTZ, Gunter HEYMANN, Klaus WURST
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Patent number: 11359138Abstract: A phosphor may have the empirical formula: (AB)1+x+2yAl11?x?y(AC)xLiyO17:E, where 0<x+y<11; x>0; AC=B, Ga, In, or combinations thereof; AB=Na, K, Rb, Cs, or combinations thereof; and E=Eu, Ce, Yb, Mn, or combinations thereof. The phosphor may be used in conversion LED components.Type: GrantFiled: September 27, 2018Date of Patent: June 14, 2022Assignee: OSRAM OLED GmbHInventors: Alexey Marchuk, Dominik Baumann
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Patent number: 11230664Abstract: A dimmable light source for emitting white overall radiation may include a dimmer and a light-emitting diode. The dimmer may vary a current intensity of a current for operating the light-emitting diode during the operation of the light source. The LED may include a semiconductor layer sequence to emit primary radiation, and the LED may further include a conversion element configured to at least partially convert the primary radiation into secondary radiation having a first emission band with a first emission maximum ranging from 400 nm to 500 nm and a second emission band with a second emission maximum ranging from 510 nm to 700 nm. A relative intensity of the first emission band may reduce with decreasing current intensity of the current for operating the LED, and a relative intensity of the second emission band may increase with decreasing current intensity of the current for operating the LED.Type: GrantFiled: February 12, 2018Date of Patent: January 25, 2022Assignee: OSRAM OLED GmbHInventors: Dominik Baumann, Stefan Lange
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Publication number: 20210246369Abstract: The present disclosure provides a phosphor having an empirical formula Li2SiF6:Mn4+, a conversion LED including the phosphor, and a method of making the phosphor by solid-state synthesis.Type: ApplicationFiled: October 22, 2019Publication date: August 12, 2021Inventors: Markus Seibald, Dominik Baumann, Christiane Stoll, Hubert Huppertz
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Publication number: 20210002549Abstract: A lighting device is specified. The lighting device comprises a phosphor having the general molecular formula (MA)a(MB)b(MC)c(MD)d(TA)e(TB)f(TC)g(TD)h(TE)i(TF)j(XA)k(XB)l(XC)m(XD)n:E. In this case, MA is selected from a group of monovalent metals, MB is selected from a group of divalent metals, MC is selected from a group of trivalent metals, MD is selected from a group of tetravalent metals, TA is selected from a group of monovalent metals, TB is selected from a group of divalent metals, TC is selected from a group of trivalent metals, TD is selected from a group of tetravalent metals, TE is selected from a group of pentavalent elements, TF is selected from a group of hexavalent elements, XA is selected from a group of elements which comprises halogens, XB is selected from a group of elements which comprises O, S and combinations thereof, XC=N and XD=C and E=Eu, Ce, Yb and/or Mn. The following furthermore hold true: a+b+c+d=t; e+f+g+h+i+j=u; k+l+m+n=v; a+2b+3c+4d+e+2f+3g+4h+5i+6j?k?2l?3m?4n=w; 0.8?t?1; ?3.Type: ApplicationFiled: July 13, 2020Publication date: January 7, 2021Inventors: Markus Seibald, Dominik Baumann, Tim Fiedler, Stefan Lange, Hubert Huppertz, Daniel Dutzler, Thorsten Schroeder, Daniel Bichler, Gudrun Plundrich, Simon Peschke, Gregor Hoerder, Gina Maya Achrainer, Klaus Wurst
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Patent number: 10752836Abstract: A phosphor is disclosed. In an embodiment the phosphor includes an inorganic compound having at least one activator E and N and/or O in its empirical formula, wherein E is selected from the group consisting of Mn, Cr, Ni, Ce, Pr, Nd, Sm, Eu, Tb, Dy, Ho, Er, Yb, Tm, Li, Na, K, Rb, Cs and combinations thereof, and wherein the inorganic compound crystallizes in a crystal structure with the same atomic sequence as in K2Zn6O7.Type: GrantFiled: May 6, 2016Date of Patent: August 25, 2020Assignee: OSRAM OLED GMBHInventors: Markus Seibald, Tim Fiedler, Dominik Baumann, Hubert Huppertz, Klaus Wurst, Gunter Heymann, Dominik Wilhelm