Patents Assigned to Tivra Corporation
-
Patent number: 9879357Abstract: A system for depositing a film on a substrate comprises a lateral control shutter disposed between the substrate and a material source. The lateral control shutter is configured to block some predetermined portion of source material to prevent deposition of source material onto undesirable portion of the substrate. One of the lateral control shutter or the substrate moves with respect to the other to facilitate moving a lateral growth boundary originating from one or more seed crystals. A lateral epitaxial deposition across the substrate ensues, by having an advancing growth front that expands grain size and forms a single crystal film on the surface of the substrate.Type: GrantFiled: March 11, 2013Date of Patent: January 30, 2018Assignee: TIVRA CORPORATIONInventor: Indranil De
-
Patent number: 9487885Abstract: A process for separating a substrate from an epitaxial layer comprises forming a multilayer substrate comprising a substrate, a lattice matching layer and an epitaxial layer. The method further comprises etching the lattice matching layer by one of a liquid or a vapor phase acid. The lattice matching layer is a metal alloy between the substrate and the epitaxial layer and serves as an etching release layer. The substrate can also be separated from an epitaxial layer by laser lift off process. The process comprises forming a multilayer substrate comprising a substrate, a lattice matching layer and an epitaxial layer, directing laser light at the lattice matching layer, maintaining the laser light on the lattice matching layer for a sufficient period of time so that it is absorbed by free electrons in the lattice matching layer to allow decomposition of the lattice matching layer.Type: GrantFiled: December 13, 2013Date of Patent: November 8, 2016Assignee: Tivra CorporationInventors: Francisco Machuca, Indranil De
-
Publication number: 20150167198Abstract: A process for separating a substrate from an epitaxial layer comprises forming a multilayer substrate comprising a substrate, a lattice matching layer and an epitaxial layer. The method further comprises etching the lattice matching layer by one of a liquid or a vapor phase acid. The lattice matching layer is a metal alloy between the substrate and the epitaxial layer and serves as an etching release layer. The substrate can also be separated from an epitaxial layer by laser lift off process. The process comprises forming a multilayer substrate comprising a substrate, a lattice matching layer and an epitaxial layer, directing laser light at the lattice matching layer, maintaining the laser light on the lattice matching layer for a sufficient period of time so that it is absorbed by free electrons in the lattice matching layer to allow decomposition of the lattice matching layer.Type: ApplicationFiled: December 13, 2013Publication date: June 18, 2015Applicant: TIVRA CORPORATIONInventors: Francisco Machuca, Indranil De
-
Patent number: 8956952Abstract: A multilayer substrate structure comprises a substrate, a thermal matching layer formed on the substrate and a lattice matching layer above the thermal matching layer. The thermal matching layer includes at least one of molybdenum, molybdenum-copper, mullite, sapphire, graphite, aluminum-oxynitrides, silicon, silicon carbide, zinc oxides, and rare earth oxides. The lattice matching layer includes a first chemical element and a second chemical element to form an alloy. The first and second chemical element has similar crystal structures and chemical properties. The coefficient of thermal expansion of the thermal matching layer and the lattice parameter of the lattice matching layer are both approximately equal to that of a member of group III-V compound semiconductors. The lattice constant of the lattice matching layer is approximately equal to that of a member of group III-V compound semiconductor.Type: GrantFiled: March 11, 2013Date of Patent: February 17, 2015Assignee: Tivra CorporationInventors: Francisco Machuca, Indranil De
-
Publication number: 20140251205Abstract: A system for depositing a film on a substrate comprises a lateral control shutter disposed between the substrate and a material source. The lateral control shutter is configured to block some predetermined portion of source material to prevent deposition of source material onto undesirable portion of the substrate. One of the lateral control shutter or the substrate moves with respect to the other to facilitate moving a lateral growth boundary originating from one or more seed crystals. A lateral epitaxial deposition across the substrate ensues, by having an advancing growth front that expands grain size and forms a single crystal film on the surface of the substrate.Type: ApplicationFiled: March 11, 2013Publication date: September 11, 2014Applicant: Tivra CorporationInventor: Indranil De
-
Publication number: 20130334568Abstract: A multilayer substrate structure comprises a substrate, a thermal matching layer formed on the substrate and a lattice matching layer above the thermal matching layer. The thermal matching layer includes at least one of molybdenum, molybdenum-copper, mullite, sapphire, graphite, aluminum-oxynitrides, silicon, silicon carbide, zinc oxides, and rare earth oxides. The lattice matching layer includes a first chemical element and a second chemical element to form an alloy. The first and second chemical element has similar crystal structures and chemical properties. The coefficient of thermal expansion of the thermal matching layer and the lattice parameter of the lattice matching layer are both approximately equal to that of a member of group III-V compound semiconductors. The lattice constant of the lattice matching layer is approximately equal to that of a member of group III-V compound semiconductor.Type: ApplicationFiled: March 11, 2013Publication date: December 19, 2013Applicant: TIVRA CORPORATIONInventors: FRANCISCO MACHUCA, INDRANIL DE
-
Publication number: 20130333611Abstract: A lattice matching layer for use in a multilayer substrate structure comprises a lattice matching layer. The lattice matching layer includes a first chemical element and a second chemical element. Each of the first and second chemical elements has a hexagonal close-packed structure at room temperature that transforms to a body-centered cubic structure at an ?-? phase transition temperature higher than the room temperature. The hexagonal close-packed structure of the first chemical element has a first lattice parameter. The hexagonal close-packed structure of the second chemical element has a second lattice parameter. The second chemical element is miscible with the first chemical element to form an alloy with a hexagonal close-packed structure at the room temperature. A lattice constant of the alloy is approximately equal to a lattice constant of a member of group III-V compound semiconductors.Type: ApplicationFiled: March 11, 2013Publication date: December 19, 2013Applicant: Tivra CorporationInventors: Indranil De, Francisco Machuca