Patents by Inventor Melissa Archer
Melissa Archer 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: 8686284Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) device may incorporate front side and/or back side light trapping techniques in an effort to absorb as many of the photons incident on the front side of the PV device as possible in the absorber layer. The light trapping techniques may include a front side antireflective coating, multiple window layers, roughening or texturing on the front and/or the back sides, a back side diffuser for scattering the light, and/or a back side reflector for redirecting the light into the interior of the PV device. With such light trapping techniques, more light may be absorbed by the absorber layer for a given amount of incident light, thereby increasing the efficiency of the PV device.Type: GrantFiled: October 23, 2009Date of Patent: April 1, 2014Assignee: Alta Devices, Inc.Inventors: Isik C. Kizilyalli, Melissa Archer, Harry Atwater, Thomas J. Gmitter, Gang He, Andreas Hegedus, Gregg Higashi
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Patent number: 8674214Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. In one embodiment of a photovoltaic (PV) device, the PV device generally includes an n-doped layer and a p+-doped layer adjacent to the n-doped layer to form a p-n layer such that electric energy is created when electromagnetic radiation is absorbed by the p-n layer. The n-doped layer and the p+-doped layer may compose an absorber layer having a thickness less than 500 nm. Such a thin absorber layer may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells.Type: GrantFiled: October 23, 2009Date of Patent: March 18, 2014Assignee: Alta Devices, Inc.Inventors: Isik C. Kizilyalli, Melissa Archer, Harry Atwater, Thomas J. Gmitter, Gang He, Andreas Hegedus, Gregg Higashi
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Patent number: 8602707Abstract: Embodiments of the invention generally relate to a levitating substrate carrier or support. In one embodiment, a substrate carrier for supporting and carrying at least one substrate or wafer is provided which includes a substrate carrier body containing an upper surface and a lower surface, and at least one indentation pocket disposed within the lower surface. In another embodiment, the substrate carrier includes at least open indentation area within the upper surface, and at least two indentation pockets disposed within the lower surface. Each indentation pocket may be rectangular and have four side walls extending substantially perpendicular to the lower surface.Type: GrantFiled: May 29, 2009Date of Patent: December 10, 2013Assignee: Alta Devices, Inc.Inventors: Gang He, Gregg Higashi, Khurshed Sorabji, Roger Hamamjy, Andreas Hegedus, Melissa Archer, Harry Atwater, Stewart Sonnenfeldt
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Publication number: 20130098289Abstract: Embodiments of the invention generally relate to a chemical vapor deposition system and related method of use. In one embodiment, the system includes a reactor lid assembly having a body, a track assembly having a body and a guide path located along the body, and a heating assembly operable to heat the substrate as the substrate moves along the guide path. The body of the lid assembly and the body of the track assembly are coupled together to form a gap that is configured to receive a substrate. In another embodiment, a method of forming layers on a substrate using the chemical vapor deposition system includes introducing the substrate into a guide path, depositing a first layer on the substrate and depositing a second layer on the substrate, while the substrate moves along the guide path; and preventing mixing of gases between the first deposition step and the second deposition step.Type: ApplicationFiled: April 11, 2012Publication date: April 25, 2013Applicant: ALTA DEVICES, INC.Inventors: Gang He, Gregg Higashi, Khurshed Sorabji, Roger Hamamjy, Andreas Hegedus, Melissa Archer, Harry Atwater, Stewart Sonnenfeldt
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Publication number: 20130042801Abstract: Embodiments described herein provide processes for forming and removing epitaxial films and materials from growth wafers by epitaxial lift off (ELO) processes. In some embodiments, the growth wafer has edge surfaces with an off-axis orientation which is utilized during the ELO process. The off-axis orientation of the edge surface provides an additional variable for controlling the etch rate during the ELO process- and therefore the etch front may be modulated to prevent the formation of high stress points which reduces or prevents stressing and cracking the epitaxial film stack. In one embodiment, the growth wafer is rectangular and has an edge surface with an off-axis orientation rotated by an angle greater than 0° and up to 90° relative to an edge orientation of <110> at 0°.Type: ApplicationFiled: August 15, 2011Publication date: February 21, 2013Inventors: Thomas Gmitter, Gang He, Melissa Archer, Siew Neo
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Patent number: 8309432Abstract: Embodiments of the invention generally relate to epitaxial lift off (ELO) thin films and devices and methods used to form such films and devices. In one embodiment, a method for forming an ELO thin film is provided which includes depositing an epitaxial material over a sacrificial layer on a substrate, adhering a universally shrinkable support handle onto the epitaxial material, wherein the universally shrinkable support handle contains a shrinkable material, and shrinking the support handle to form tension in the support handle and compression in the epitaxial material during a shrinking process. The method further includes removing the sacrificial layer during an etching process, peeling the epitaxial material from the substrate while forming an etch crevice therebetween, and bending the support handle to have substantial curvature.Type: GrantFiled: May 29, 2009Date of Patent: November 13, 2012Assignee: Alta Devices, Inc.Inventors: Melissa Archer, Harry Atwater, Thomas Gmitter, Gang He, Andreas Hegedus, Gregg Higashi, Stewart Sonnenfeldt
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Publication number: 20120015163Abstract: Present embodiments generally relate to support structures for thin film components and methods for fabricating the support structures. In one embodiment, an apparatus comprises a device structure including portions of an electronic device; a support structure coupled to the device structure; wherein the support structure supplements features of the device structure and the support structure includes: a metal component coupled to the device structure; and a non-metal component coupled to the metal component. The support component can supplement structural and mechanical integrity of the device structure and functional operations of the device structure. In one embodiment, the metal component includes at least one layer of metal material and the non-metal component includes at least one layer of non metal material (e.g., polymeric material, etc.).Type: ApplicationFiled: January 24, 2011Publication date: January 19, 2012Inventors: Gang HE, Thomas J. GMITTER, Melissa ARCHER
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Publication number: 20110214697Abstract: Embodiments of the invention generally relate to a method for selectively etching or otherwise removing copper or other metallic contaminants from a substrate, such as a gallium arsenide wafer. In one embodiment, a method for selectively removing metallic contaminants from a substrate surface is provided which includes exposing a substrate to a peroxide clean solution, exposing the substrate to a hydroxide clean solution, and exposing the substrate to a selective etch solution containing potassium iodide, iodine, sulfuric acid, and water during a selective etch process. The substrate generally contains gallium arsenide material, such as crystalline gallium arsenide, and is usually a growth substrate for an epitaxial lift off (ELO) process. The copper or other metallic contaminants disposed on the substrate may be selectively etched at a rate of about 500 times, about 1,000 times, about 2,000 times, or about 4,000 times or greater than the gallium arsenide material.Type: ApplicationFiled: March 7, 2011Publication date: September 8, 2011Inventor: Melissa ARCHER
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Publication number: 20110056553Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) unit, according to embodiments of the invention, may have a very thin absorber layer produced by epitaxial lift-off (ELO), all electrical contacts positioned on the back side of the PV device to avoid shadowing, and/or front side and back side light trapping employing a diffuser and a reflector to increase absorption of the photons impinging on the front side of the PV unit. Several PV units may be combined into PV banks, and an array of PV banks may be connected to form a PV module with thin strips of metal or conductive polymer applied at low temperature. Such innovations may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells.Type: ApplicationFiled: November 5, 2010Publication date: March 10, 2011Applicant: Alta Devices, Inc.Inventors: Isik C. KIZILYALLI, Melissa ARCHER, Harry ATWATER, Thomas J. GMITTER, Gang HE, Andreas HEGEDUS, Gregg HIGASHI
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Publication number: 20110048532Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) unit, according to embodiments of the invention, may have a very thin absorber layer produced by epitaxial lift-off (ELO), all electrical contacts positioned on the back side of the PV device to avoid shadowing, and/or front side and back side light trapping employing a diffuser and a reflector to increase absorption of the photons impinging on the front side of the PV unit. Several PV units may be combined into PV banks, and an array of PV banks may be connected to form a PV module with thin strips of metal or conductive polymer applied at low temperature. Such innovations may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells.Type: ApplicationFiled: November 5, 2010Publication date: March 3, 2011Applicant: ALTA DEVICES, INC.Inventors: Isik C. KIZILYALLI, Melissa ARCHER, Harry ATWATER, Thomas J. GMITTER, Gang HE, Andreas HEGEDUS, Gregg HIGASHI
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Publication number: 20110048519Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) device may incorporate front side and/or back side light trapping techniques in an effort to absorb as many of the photons incident on the front side of the PV device as possible in the absorber layer. The light trapping techniques may include a front side antireflective coating, multiple window layers, roughening or texturing on the front and/or the back sides, a back side diffuser for scattering the light, and/or a back side reflector for redirecting the light into the interior of the PV device. With such light trapping techniques, more light may be absorbed by the absorber layer for a given amount of incident light, thereby increasing the efficiency of the PV device.Type: ApplicationFiled: November 5, 2010Publication date: March 3, 2011Applicant: ALTA DEVICES, INC.Inventors: Isik C. KIZILYALLI, Melissa ARCHER, Harry ATWATER, Thomas J. GMITTER, Gang HE, Andreas HEGEDUS, Gregg HIGASHI
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Publication number: 20110041904Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. In one embodiment of a photovoltaic (PV) device, the PV device generally includes an n-doped layer and a p+-doped layer adjacent to the n-doped layer to form a p-n layer such that electric energy is created when electromagnetic radiation is absorbed by the p-n layer. The n-doped layer and the p+-doped layer may compose an absorber layer having a thickness less than 500 nm. Such a thin absorber layer may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells.Type: ApplicationFiled: November 5, 2010Publication date: February 24, 2011Applicant: ALTA DEVICES, INC.Inventors: Isik C. KIZILYALLI, Melissa ARCHER, Harry ATWATER, Thomas J. GMITTER, Gang HE, Andreas HEGEDUS, Gregg HIGASHI
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Publication number: 20100151689Abstract: Embodiments of the invention generally relate to apparatuses and methods for producing epitaxial thin films and devices by epitaxial lift off (ELO) processes. In one embodiment, a method for forming thin film devices during an ELO process is provided which includes coupling a plurality of substrates to an elongated support tape, wherein each substrate contains an epitaxial film disposed over a sacrificial layer disposed over a wafer, exposing the substrates to an etchant during an etching process while moving the elongated support tape, and etching the sacrificial layers and peeling the epitaxial films from the wafers while moving the elongated support tape. Embodiments also include several apparatuses, continuous-type as well as a batch-type apparatuses, for forming the epitaxial thin films and devices, including an apparatus for removing the support tape and epitaxial films from the wafers on which the epitaxial films were grown.Type: ApplicationFiled: December 17, 2009Publication date: June 17, 2010Applicant: ALTA DEVICES, INC.Inventors: Thomas Gmitter, Gang He, Melissa Archer, Andreas Hegedus
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Publication number: 20100132780Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) unit, according to embodiments of the invention, may have a very thin absorber layer produced by epitaxial lift-off (ELO), all electrical contacts positioned on the back side of the PV device to avoid shadowing, and/or front side and back side light trapping employing a diffuser and a reflector to increase absorption of the photons impinging on the front side of the PV unit. Several PV units may be combined into PV banks, and an array of PV banks may be connected to form a PV module with thin strips of metal or conductive polymer applied at low temperature. Such innovations may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells.Type: ApplicationFiled: October 23, 2009Publication date: June 3, 2010Inventors: Isik C. Kizilyalli, Melissa Archer, Harry Atwater, Thomas J. Gmitter, Gang He, Andreas Hegedus, Gregg Higashi
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Publication number: 20100126570Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. In one embodiment of a photovoltaic (PV) device, the PV device generally includes an n-doped layer and a p+-doped layer adjacent to the n-doped layer to form a p-n layer such that electric energy is created when electromagnetic radiation is absorbed by the p-n layer. The n-doped layer and the p+-doped layer may compose an absorber layer having a thickness less than 500 nm. Such a thin absorber layer may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells.Type: ApplicationFiled: October 23, 2009Publication date: May 27, 2010Inventors: Isik C. Kizilyalli, Melissa Archer, Harry Atwater, Thomas J. Gmitter, Gang He, Andreas Hegedus, Gregg Higashi
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Publication number: 20100126552Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) unit may have all electrical contacts positioned on the back side of the PV device to avoid shadowing and increase absorption of the photons impinging on the front side of the PV unit. Several PV units may be combined into PV banks, and an array of PV banks may be connected to form a PV module with thin strips of metal or conductive polymer formed at low temperature. Such innovations may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells.Type: ApplicationFiled: October 23, 2009Publication date: May 27, 2010Inventors: Isik C. Kizilyalli, Melissa Archer, Harry Atwater, Thomas J. Gmitter, Gang He, Andreas Hegedus, Gregg Higashi
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Publication number: 20100126572Abstract: Methods and apparatus for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells are provided. A photovoltaic (PV) device generally includes a window layer; an absorber layer disposed below the window layer such that electrons are generated when photons travel through the window layer and are absorbed by the absorber layer; and a plurality of contacts for external connection coupled to the absorber layer, such that all of the contacts for external connection are disposed below the absorber layer and do not block any of the photons from reaching the absorber layer through the window layer. Locating all the contacts on the back side of the PV device avoids solar shadows caused by front side contacts, typically found in conventional solar cells. Therefore, PV devices described herein with back side contacts may allow for increased efficiency when compared to conventional solar cells.Type: ApplicationFiled: October 23, 2009Publication date: May 27, 2010Inventors: Isik C. Kizilyalli, Melissa Archer, Harry Atwater, Thomas J. Gmitter, Gang He, Andreas Hegedus, Gregg Higashi
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Publication number: 20100126571Abstract: Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) device may incorporate front side and/or back side light trapping techniques in an effort to absorb as many of the photons incident on the front side of the PV device as possible in the absorber layer. The light trapping techniques may include a front side antireflective coating, multiple window layers, roughening or texturing on the front and/or the back sides, a back side diffuser for scattering the light, and/or a back side reflector for redirecting the light into the interior of the PV device. With such light trapping techniques, more light may be absorbed by the absorber layer for a given amount of incident light, thereby increasing the efficiency of the PV device.Type: ApplicationFiled: October 23, 2009Publication date: May 27, 2010Inventors: Isik C. Kizilyalli, Melissa Archer, Harry Atwater, Thomas J. Gmitter, Gang He, Andreas Hegedus, Gregg Higashi
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Publication number: 20100116784Abstract: Embodiments of the invention generally relate to compositions of mesa etch solutions and methods for mesa etching materials on a wafer during an epitaxial lift off (ELO) process. The wafer usually contains an etch stop layer disposed thereon and a laminated epitaxial material disposed on the etch stop layer. In one embodiment, an etch process includes exposing the wafer to a non-selective etch solution and subsequently exposing the wafer to a selective etch solution while peeling the laminated epitaxial material from the wafer. The selective etch solution may contain succinic acid, an ammonium hydroxide compound, and an oxidizing agent, such as hydrogen peroxide. The selective etch solution may have a GaAs/AlAs selectivity of about 600, about 1,000, about 1,400, or greater. The non-selective etch solution may be an aqueous solution containing sulfuric acid and hydrogen peroxide.Type: ApplicationFiled: October 12, 2009Publication date: May 13, 2010Applicant: ALTA DEVICES, INC.Inventor: MELISSA ARCHER
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Publication number: 20090321885Abstract: Embodiments of the invention generally relate to epitaxial lift off (ELO) thin films and devices and methods used to form such films and devices. In one embodiment, a method for forming an ELO thin film is provided which includes depositing an epitaxial material over a sacrificial layer on a substrate, adhering a universally shrinkable support handle onto the epitaxial material, wherein the universally shrinkable support handle contains a shrinkable material, and shrinking the support handle to form tension in the support handle and compression in the epitaxial material during a shrinking process. The method further includes removing the sacrificial layer during an etching process, peeling the epitaxial material from the substrate while forming an etch crevice therebetween, and bending the support handle to have substantial curvature.Type: ApplicationFiled: May 29, 2009Publication date: December 31, 2009Applicant: ALTA DEVICES, INC.Inventors: Melissa Archer, Harry Atwater, Thomas Gmitter, Gang He, Andreas Hegedus, Gregg Higashi, Stewart Sonnenfeldt