Patents by Inventor Philip James Ong
Philip James Ong 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: 8187377Abstract: The present invention provides for treating a surface of a semiconductor material. The method comprises exposing the surface of the semiconductor material to a halogen etchant in a hydrogen environment at an elevated temperature. The method controls the surface roughness of the semiconductor material. The method also has the unexpected benefit of reducing dislocations in the semiconductor material.Type: GrantFiled: October 4, 2002Date of Patent: May 29, 2012Assignee: Silicon Genesis CorporationInventors: Igor J. Malik, Sien G. Kang, Martin Fuerfanger, Harry Kirk, Ariel Flat, Michael Ira Current, Philip James Ong
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Patent number: 8012851Abstract: A photovoltaic cell device, e.g., solar cell, solar panel, and method of manufacture. The device has an optically transparent substrate comprises a first surface and a second surface. A first thickness of material (e.g., semiconductor material, single crystal material) having a first surface region and a second surface region is included. In a preferred embodiment, the surface region is overlying the first surface of the optically transparent substrate. The device has an optical coupling material provided between the first surface region of the thickness of material and the first surface of the optically transparent material. A second thickness of semiconductor material is overlying the second surface region to form a resulting thickness of semiconductor material.Type: GrantFiled: March 24, 2010Date of Patent: September 6, 2011Assignee: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong
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Patent number: 7863157Abstract: A photovoltaic cell device, e.g., solar cell, solar panel, and method of manufacture. The device has an optically transparent substrate comprises a first surface and a second surface. A first thickness of material (e.g., semiconductor material, single crystal material) having a first surface region and a second surface region is included. In a preferred embodiment, the surface region is overlying the first surface of the optically transparent substrate. The device has an optical coupling material provided between the first surface region of the thickness of material and the first surface of the optically transparent material. A second thickness of semiconductor material is overlying the second surface region to form a resulting thickness of semiconductor material.Type: GrantFiled: March 13, 2007Date of Patent: January 4, 2011Assignee: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong
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Patent number: 7811901Abstract: A method for fabricating a silicon on substrate structure having smooth edge regions. The method includes providing a silicon donor substrate having a surface region and a backside region. A substrate thickness is provided between the surface region and the backside region. The method includes co-implanting a plurality of first particles through the surface region into a vicinity of a cleave region and a plurality of second particles through the surface region into the vicinity of the cleave region. The cleave region defines a thickness of material to be removed between the cleave region and the surface region. The surface region of the silicon donor substrate is joint to a handle substrate to form a coupled substrate structure. The coupled substrate structure is then processed using a thermal treatment process and placed into a cleaving chamber.Type: GrantFiled: December 1, 2008Date of Patent: October 12, 2010Assignee: Silicon Genesis CorporationInventors: Philip James Ong, Harry Kirk, James Andrew Sullivan
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Publication number: 20100180945Abstract: A photovoltaic cell device, e.g., solar cell, solar panel, and method of manufacture. The device has an optically transparent substrate comprises a first surface and a second surface. A first thickness of material (e.g., semiconductor material, single crystal material) having a first surface region and a second surface region is included. In a preferred embodiment, the surface region is overlying the first surface of the optically transparent substrate. The device has an optical coupling material provided between the first surface region of the thickness of material and the first surface of the optically transparent material. A second thickness of semiconductor material is overlying the second surface region to form a resulting thickness of semiconductor material.Type: ApplicationFiled: March 24, 2010Publication date: July 22, 2010Applicant: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong
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Patent number: 7598153Abstract: A method for fabricating bonded substrate structures, e.g., silicon on silicon. In a specific embodiment, the method includes providing a thickness of single crystal silicon material transferred from a first silicon substrate coupled to a second silicon substrate. In a specific embodiment, the second silicon substrate has a second surface region that is joined to a first surface region from the thickness of single crystal silicon material to form of an interface region having a first characteristic including a silicon oxide material between the thickness of single crystal silicon material and the second silicon substrate. The method includes subjecting the interface region to a thermal process to cause a change to the interface region from the first characteristic to a second characteristic.Type: GrantFiled: March 31, 2006Date of Patent: October 6, 2009Assignee: Silicon Genesis CorporationInventors: Francois J. Henley, James Andrew Sullivan, Sien Giok Kang, Philip James Ong, Harry Robert Kirk, David Jacy, Igor Malik
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Patent number: 7595499Abstract: A method for forming a strained layer of semiconductor material, e.g., silicon, germanium, Group III/V, silicon germanium alloy. The method includes providing a non-deformable surface region having a first predetermined radius of curvature, which is defined by R(1) and is defined normal to the surface region. The method includes providing a first substrate (e.g., silicon wafer) having a first thickness. Preferably, the first substrate has a face, a backside, and a cleave plane defined within the first thickness. The method includes a step of overlying the backside of the first substrate on a portion of the surface region having the predetermined radius of curvature to cause a first bend within the thickness of material to form a first strain within a portion of the first thickness. The method provides a second substrate having a second thickness, which has a face and a backside.Type: GrantFiled: February 19, 2008Date of Patent: September 29, 2009Assignee: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong, Igor J. Malik, Harry R. Kirk
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Patent number: 7479441Abstract: Embodiments in accordance with the present invention relate to methods and apparatuses for bonding together substrates in a manner that suppresses the formation of voids between them. In a specific embodiment, a backside of each substrate is adhered to a front area of flexible, porous chuck having a rear area in pneumatic communication with a vacuum. Application of the vacuum causes the chuck and the associated substrate to slightly bend. Owing to this bending, physical contact between local portions on the front side of the flexed substrates may be initiated, while maintaining other portions on front side of the substrates substantially free from contact with each other. A bond wave is formed and maintained at a determined velocity to form a continuous interface joining the front sides of the substrates, without formation of voids therebetween.Type: GrantFiled: October 13, 2006Date of Patent: January 20, 2009Assignee: Silicon Genesis CorporationInventors: Harry R. Kirk, Francois J. Henley, Philip James Ong
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Patent number: 7391047Abstract: A method for forming a strained layer of semiconductor material, e.g., silicon, germanium, Group III/V, silicon germanium alloy. The method includes providing a non-deformable surface region having a first predetermined radius of curvature, which is defined by R(1) and is defined normal to the surface region. The method includes providing a first substrate (e.g., silicon wafer) having a first thickness. Preferably, the first substrate has a face, a backside, and a cleave plane defined within the first thickness. The method includes a step of overlying the backside of the first substrate on a portion of the surface region having the predetermined radius of curvature to cause a first bend within the thickness of material to form a first strain within a portion of the first thickness. The method provides a second substrate having a second thickness, which has a face and a backside.Type: GrantFiled: March 17, 2006Date of Patent: June 24, 2008Assignee: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong, Igor J. Malik, Harry R. Kirk
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Patent number: 7390724Abstract: A system for manufacturing multilayered substrates. The system has a support member is adapted to process a film of material comprising a first side and a second side from a first state to a second state. The support member is attached to the first side of the film of material. The second state comprises a stressed state. The system has a handle substrate comprising a face, which is adapted to be attached to the second side of the film of material. The support member is capable of being detached from the first side of the film of material thereby leaving the handle substrate comprising the film of material in the second state being attached to the face of the handle substrate.Type: GrantFiled: April 11, 2005Date of Patent: June 24, 2008Assignee: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong, Igor J. Malik
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Publication number: 20080141510Abstract: A method for forming a strained layer of semiconductor material, e.g., silicon, germanium, Group III/V, silicon germanium alloy. The method includes providing a non-deformable surface region having a first predetermined radius of curvature, which is defined by R(1) and is defined normal to the surface region. The method includes providing a first substrate (e.g., silicon wafer) having a first thickness. Preferably, the first substrate has a face, a backside, and a cleave plane defined within the first thickness. The method includes a step of overlying the backside of the first substrate on a portion of the surface region having the predetermined radius of curvature to cause a first bend within the thickness of material to form a first strain within a portion of the first thickness. The method provides a second substrate having a second thickness, which has a face and a backside.Type: ApplicationFiled: February 19, 2008Publication date: June 19, 2008Applicant: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong, Igor J. Malik, Harry R. Kirk
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Patent number: 7094666Abstract: A method for forming a strained layer of semiconductor material, e.g., silicon, germanium, Group III/V, silicon germanium alloy. The method includes providing a non-deformable surface region having a first predetermined radius of curvature, which is defined by R(1) and is defined normal to the surface region. The method includes providing a first substrate (e.g., silicon wafer) having a first thickness. Preferably, the first substrate has a face, a backside, and a cleave plane defined within the first thickness. The method includes a step of overlying the backside of the first substrate on a portion of the surface region having the predetermined radius of curvature to cause a first bend within the thickness of material to form a first strain within a portion of the first thickness. The method provides a second substrate having a second thickness, which has a face and a backside.Type: GrantFiled: January 24, 2005Date of Patent: August 22, 2006Assignee: Silicon Genesis CorporationInventors: Francois J. Henley, Philip James Ong, Igor J. Malik, Harry R. Kirk
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Publication number: 20040067644Abstract: The present invention provides for treating a surface of a semiconductor material. The method comprises exposing the surface of the semiconductor material to a halogen etchant in a hydrogen environment at an elevated temperature. The method controls the surface roughness of the semiconductor material. The method also has the unexpected benefit of reducing dislocations in the semiconductor material.Type: ApplicationFiled: October 4, 2002Publication date: April 8, 2004Inventors: Igor J. Malik, Sien G. Kang, Martin Fuerfanger, Harry Kirk, Ariel Flat, Michael Ira Current, Philip James Ong