Patents by Inventor Gerald R. Dietze
Gerald R. Dietze 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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Patent number: 6808564Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. At least one epitaxial layer surface is substantially hydrophobic. Then, a chemical reagent is introduced into said epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer layer.Type: GrantFiled: March 12, 2003Date of Patent: October 26, 2004Assignee: SEH America, Inc.Inventor: Gerald R. Dietze
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Patent number: 6632277Abstract: A method of manufacturing a silicon wafer with robust gettering sites and a low concentration of surface defects is provided. The method comprises adding polycrystalline silicon to a crucible; adding a nitrogen-containing dopant to the crucible; heating the crucible to form a nitrogen-doped silicon melt; pulling a silicon crystal from the melt according to the Czochralski technique; forming a silicon wafer from the silicon crystal, wherein the silicon wafer includes a front surface and a back surface; placing the silicon wafer into a deposition chamber; heating the wafer; and simultaneously depositing an epitaxial first film of a desired compound onto the front surface of the wafer and a second film of the desired compound onto the back surface of the wafer.Type: GrantFiled: January 11, 2001Date of Patent: October 14, 2003Assignee: SEH America, Inc.Inventors: Gerald R. Dietze, Sean G. Hanna, Zbigniew J. Radzimski
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Publication number: 20030159649Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. At least one epitaxial layer surface is substantially hydrophobic. Then, a chemical reagent is introduced into said epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer layer.Type: ApplicationFiled: March 12, 2003Publication date: August 28, 2003Inventor: Gerald R. Dietze
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Publication number: 20030097977Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. Then, a chemical reagent is introduced into the epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer protective oxide layer.Type: ApplicationFiled: May 17, 2002Publication date: May 29, 2003Inventors: Gerald R. Dietze, Oleg V. Kononchuk
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Patent number: 6565651Abstract: A method of manufacturing a damage-resistant silicon wafer is provided. The method comprises adding polycrystalline silicon to a crucible, adding a nitrogen-containing dopant to the crucible, heating the polycrystalline silicon to form a melt of nitrogen-doped silicon, pulling a nitrogen-doped silicon crystal from the melt using a seed crystal according to the Czochralski technique, forming a silicon wafer from the silicon crystal, the silicon wafer having an edge, and rounding the edge of the silicon wafer. The method may optionally include applying an electrical potential across the crucible while pulling the nitrogen-doped silicon crystal from the melt.Type: GrantFiled: January 11, 2001Date of Patent: May 20, 2003Assignee: SEH America, Inc.Inventors: Gerald R. Dietze, Sean G. Hanna, Zbigniew J. Radzimski
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Patent number: 6562128Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. Then, a chemical reagent is introduced into the epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer protective oxide layer.Type: GrantFiled: May 17, 2002Date of Patent: May 13, 2003Assignee: SEH America, Inc.Inventors: Gerald R. Dietze, Oleg V. Kononchuk
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Publication number: 20030017716Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. At least one epitaxial layer surface is substantially hydrophobic. Then, a chemical reagent is introduced into said epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer layer.Type: ApplicationFiled: August 23, 2002Publication date: January 23, 2003Inventor: Gerald R. Dietze
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Patent number: 6506667Abstract: A method of growing epitaxial semiconductor layers with reduced crystallographic defects. The method includes growing a first epitaxial semiconductor layer on a semiconductor substrate under conditions of relatively high temperature and low source gas flow to heal defects in or on the surface of the substrate. Subsequently, a second epitaxial semiconductor layer is grown on the first layer under conditions of relatively low temperature and high source gas flow. The first epi layer acts as a low-defect seed layer by preventing defects in the surface of the substrate from propagating into the second epi layer. Optionally, a hydrogen chloride etch may be employed during a portion of the first epi layer growth to increase the efficacy of the first layer.Type: GrantFiled: December 11, 2000Date of Patent: January 14, 2003Assignee: SEH America, Inc.Inventors: Mark R. Boydston, Gerald R. Dietze, Oleg V. Kononchuk
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Patent number: 6471771Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. At least one epitaxial layer surface is substantially hydrophobic. Then, a chemical reagent is introduced into said epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer layer.Type: GrantFiled: November 28, 2001Date of Patent: October 29, 2002Assignee: SEH America, Inc.Inventor: Gerald R. Dietze
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Patent number: 6454852Abstract: A low-cost method of manufacturing a silicon wafer is provided. The method comprises providing a crucible for melting silicon; adding silicon to the crucible; melting the silicon to form a melt; applying an electrical potential across the crucible; pulling a silicon crystal from the melt according to the Czochralski technique at a pulling rate of greater than 1.1 mm/min; and forming a silicon wafer from the silicon crystal. The method may also include adding a nitrogen-containing dopant to the crucible. Furthermore, the method may include etching the wafer first in an alkaline etching solution, and then in an acidic etching solution. The method may also include simultaneously depositing an epitaxial first film on the frontside of the wafer and a second film on the backside of the wafer, wherein the second film traps impurities on the backside of the wafer so the impurities do not contaminate the frontside of the wafer while the epitaxial first film is being grown.Type: GrantFiled: January 11, 2001Date of Patent: September 24, 2002Assignee: SEH America, Inc.Inventors: Gerald R. Dietze, Sean G. Hanna, Zbigniew J. Radzimski
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Publication number: 20020062792Abstract: A wafer support device and an associated reactor system are provided which permit a wafer to be supported during the growth of a uniform epitaxial layer. The wafer support device includes a base and at least one contact member for supporting the wafer in a spaced relationship to the base. The base directs a portion of the gas through the space between the base and the back side of the wafer to facilitate the smooth flow of the gas. The wafer support device may also include a thermal mass proximate the edge of the wafer. The base may be formed of a material having greater thermal transparency than the material that forms the thermal mass such that the thermal mass will absorb and retain heat. Once heated, the thermal mass will therefore limit the heat that escapes from the edge of the wafer.Type: ApplicationFiled: January 8, 2002Publication date: May 30, 2002Applicant: SEH America, Inc.Inventors: Mark R. Boydston, Gerald R. Dietze, Oleg V. Kononchuk, Rodney D. Scherschel, Mengistu Yemane-Berhane
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Patent number: 6395085Abstract: A method of manufacturing a high-purity epitaxial silicon wafer is provided. The method includes providing a quartz crucible for melting silicon; adding silicon to the crucible; heating the crucible to form a melt; applying an electrical potential across the crucible; pulling a silicon crystal from the melt; forming a silicon wafer from the silicon crystal, the wafer having a frontside and a backside; and simultaneously depositing an epitaxial first silicon film on the frontside of the wafer and a polycrystalline second silicon film on the backside of the wafer.Type: GrantFiled: January 11, 2001Date of Patent: May 28, 2002Assignee: SEH America, Inc.Inventors: Gerald R. Dietze, Sean G. Hanna, Zbigniew J. Radzimski
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Publication number: 20020059900Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. At least one epitaxial layer surface is substantially hydrophobic. Then, a chemical reagent is introduced into said epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer layer.Type: ApplicationFiled: November 28, 2001Publication date: May 23, 2002Inventor: Gerald R. Dietze
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Patent number: 6375749Abstract: A reactor system with an associated wafer support device is provided for use in the growth of an epitaxial layer of semiconductor material on a semiconductor wafer. The reactor system includes a reaction chamber including an inlet and an outlet configured to flow a source gas through the reaction chamber. The reaction system also includes a wafer support mounted at least partially within the reaction chamber, and a semiconductor wafer supported adjacent an outer edge by the wafer support. The wafer support device typically includes a hub and an arm extending outwardly from the hub. The wafer support device also typically includes a contact member coupled to the arm. In some embodiments a portion of the contact member extending downward relative to the back side of the wafer. The downwardly extending portion is configured to contact and support the wafer during epitaxial growth of semiconductor material onto the wafer.Type: GrantFiled: May 9, 2000Date of Patent: April 23, 2002Assignee: SEH America, Inc.Inventors: Mark R Boydston, Gerald R. Dietze, Dominic A. Hartmann
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Publication number: 20020025660Abstract: A method of growing epitaxial semiconductor layers with reduced crystallographic defects. The method includes growing a first epitaxial semiconductor layer on a semiconductor substrate under conditions of relatively high temperature and low source gas flow to heal defects in or on the surface of the substrate. Subsequently, a second epitaxial semiconductor layer is grown on the first layer under conditions of relatively low temperature and high source gas flow. The first epi layer acts as a low-defect seed layer by preventing defects in the surface of the substrate from propagating into the second epi layer. Optionally, a hydrogen chloride etch may be employed during a portion of the first epi layer growth to increase the efficacy of the first layer.Type: ApplicationFiled: December 11, 2000Publication date: February 28, 2002Applicant: SEH-AMERICA, Inc.Inventors: Mark R. Boydston, Gerald R. Dietze, Oleg V. Kononchuk
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Publication number: 20020020340Abstract: A method of manufacturing a damage-resistant silicon wafer is provided. The method comprises adding polycrystalline silicon to a crucible, adding a nitrogen-containing dopant to the crucible, heating the polycrystalline silicon to form a melt of nitrogen-doped silicon, pulling a nitrogen-doped silicon crystal from the melt using a seed crystal according to the Czochralski technique, forming a silicon wafer from the silicon crystal, the silicon wafer having an edge, and rounding the edge of the silicon wafer. The method may optionally include applying an electrical potential across the crucible while pulling the nitrogen-doped silicon crystal from the melt.Type: ApplicationFiled: January 11, 2001Publication date: February 21, 2002Applicant: SEH America, Inc.Inventors: Gerald R. Dietze, Sean G. Hanna, Zbigniew J. Radzimski
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Patent number: 6338756Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. At least one epitaxial layer surface is substantially hydrophobic. Then, a chemical reagent is introduced into said epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer layer.Type: GrantFiled: December 15, 2000Date of Patent: January 15, 2002Assignee: SEH America, Inc.Inventor: Gerald R. Dietze
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Publication number: 20010027744Abstract: A process for forming an epitaxial layer on a semiconductor wafer substrate is provided. The process comprises providing a semiconductor wafer substrate and an area for forming an epitaxial layer on said semiconductor wafer substrate. The formation area consists essentially of an epitaxial layer process chamber. The semiconductor wafer substrate is introduced into the epitaxial layer process chamber and an epitaxial layer is formed on at least one surface of the semiconductor wafer substrate. At least one epitaxial layer surface is substantially hydrophobic. Then, a chemical reagent is introduced into said epitaxial layer process chamber. The chemical reagent reacts with the epitaxial layer surface in situ to form an outer layer.Type: ApplicationFiled: December 15, 2000Publication date: October 11, 2001Inventor: Gerald R. Dietze
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Patent number: 6284986Abstract: A method of determining the thickness of a layer on a substrate where the layer is deposited during a semiconductor manufacturing process. The substrate is weighed a first time. The layer is deposited on the substrate and the substrate is weighed a second time. The thickness of the layer is calculated using the difference between the second weighing and the first weighing.Type: GrantFiled: March 15, 1999Date of Patent: September 4, 2001Assignee: SEH America, Inc.Inventors: Gerald R. Dietze, Oleg V. Kononchuk
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Publication number: 20010015168Abstract: A method of manufacturing a silicon wafer with robust gettering sites and a low concentration of surface defects is provided. The method comprises adding polycrystalline silicon to a crucible; adding a nitrogen-containing dopant to the crucible; heating the crucible to form a nitrogen-doped silicon melt; pulling a silicon crystal from the melt according to the Czochralski technique; forming a silicon wafer from the silicon crystal, wherein the silicon wafer includes a front surface and a back surface; placing the silicon wafer into a deposition chamber; heating the wafer; and simultaneously depositing an epitaxial first film of a desired compound onto the front surface of the wafer and a second film of the desired compound onto the back surface of the wafer.Type: ApplicationFiled: January 11, 2001Publication date: August 23, 2001Inventors: Gerald R. Dietze, Sean G. Hanna, Zbigniew J. Radzimski