Patents Assigned to SiOnyx, Inc.
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Patent number: 8698272Abstract: Optoelectronic devices, materials, and associated methods having increased operating performance are provided. In one aspect, for example, an optoelectronic device can include a semiconductor material, a first doped region in the semiconductor material, a second doped region in the semiconductor material forming a junction with the first doped region, and a laser processed region associated with the junction. The laser processed region is positioned to interact with electromagnetic radiation. Additionally, at least a portion of a region of laser damage from the laser processed region has been removed such that the optoelectronic device has an open circuit voltage of from about 500 mV to about 800 mV.Type: GrantFiled: December 21, 2011Date of Patent: April 15, 2014Assignee: SiOnyx, Inc.Inventors: Christopher Vineis, James Carey, Xia Li
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Patent number: 8692198Abstract: A monolithic sensor for detecting infrared and visible light according to an example includes a semiconductor substrate and a semiconductor layer coupled to the semiconductor substrate. The semiconductor layer includes a device surface opposite the semiconductor substrate. A visible light photodiode is formed at the device surface. An infrared photodiode is also formed at the device surface and in proximity to the visible light photodiode. A textured region is coupled to the infrared photodiode and positioned to interact with electromagnetic radiation.Type: GrantFiled: April 21, 2011Date of Patent: April 8, 2014Assignee: SiOnyx, Inc.Inventors: Jutao Jiang, Jeffrey McKee, Martin U. Pralle
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Patent number: 8679959Abstract: The present invention relates generally to methods for high throughput and controllable creation of high performance semiconductor substrates for use in devices such as high sensitivity photodetectors, imaging arrays, high efficiency solar cells and the like, to semiconductor substrates prepared according to the methods, and to an apparatus for performing the methods of the invention.Type: GrantFiled: September 3, 2009Date of Patent: March 25, 2014Assignee: Sionyx, Inc.Inventors: James E. Carey, Xia Li, Nathaniel J. McCaffrey
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Patent number: 8680642Abstract: A device with increased photo-sensitivity using laser treated semiconductor as detection material is disclosed. In some embodiments, the laser treated semiconductor may be placed between and an n-type and a p-type contact or two Schottky metals. The field within the p-n junction or the Schottky metal junction may aid in depleting the laser treated semiconductor section and may be capable of separating electron hole pairs. Multiple device configurations are presented, including lateral and vertical configurations.Type: GrantFiled: March 26, 2012Date of Patent: March 25, 2014Assignee: Sionyx, Inc.Inventors: Nathaniel J. McCaffrey, James E. Carey
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Patent number: 8680591Abstract: Photosensitive devices and associated methods are provided. In one aspect, for example, a photosensitive imager device can include a semiconductor substrate having multiple doped regions forming at least one junction, a textured region coupled to the semiconductor substrate and positioned to interact with electromagnetic radiation, and an electrical transfer element coupled to the semiconductor substrate and operable to transfer an electrical signal from the at least one junction. In one aspect, the textured region is operable to facilitate generation of an electrical signal from the detection of infrared electromagnetic radiation. In another aspect, interacting with electromagnetic radiation further includes increasing the semiconductor substrate's effective absorption wavelength as compared to a semiconductor substrate lacking a textured region.Type: GrantFiled: September 17, 2010Date of Patent: March 25, 2014Assignee: Sionyx, Inc.Inventors: Homayoon Haddad, Jutao Jiang, Jeffrey McKee, Drake Miller, Leonard Forbes, Chintamani Palsule
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Patent number: 8674316Abstract: Electromagnetic radiation detection systems and associated methods are provided. In one aspect, for example, an electromagnetic radiation detection system includes a semiconductor material operable to detect electromagnetic radiation, the semiconductor material having a responsivity of greater than or equal to 0.3 A/W at an operating voltage of less than or equal to about 50 volts and at a wavelength of from about 0.01 nm to about 100 nm. The system can further include an electromagnetic radiation source positioned to deliver electromagnetic radiation to the semiconductor material.Type: GrantFiled: July 1, 2013Date of Patent: March 18, 2014Assignee: Sionyx, Inc.Inventors: Martin U. Pralle, James E. Carey, Stephen D. Saylor
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Publication number: 20140048899Abstract: Methods for laser processing semiconductor materials for use in optoelectronic and other devices, including materials, devices, and systems associated therewith are provided. In one aspect, a method of minimizing laser-induced material damage while laser-texturing a semiconductor material can include delivering short pulse duration laser radiation to a target region of a semiconductor material to form a textured region having a reorganized surface layer, wherein the laser radiation has a wavelength from about 200 nm to about 600 nm and a pulse duration of from about 10 femtoseconds to about 400 picoseconds, and wherein defect density of the semiconductor material from beneath the reorganized surface layer up to a depth of about 1 micron is less than or equal to about 1012/cm3.Type: ApplicationFiled: February 11, 2013Publication date: February 20, 2014Applicant: SIONYX, INC.Inventor: SIONYX, INC.
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Publication number: 20140027774Abstract: Photovoltaic heterojunction devices, combination hetero- homo-junction devices, and associated methods are provided. In one aspect, for example, a photovoltaic device can include a doped semiconductor substrate having a first textured region and a second textured region opposite the first textured region, a first intrinsic semiconductor layer coupled to the first textured region opposite the semiconductor substrate and a second intrinsic semiconductor layer coupled to the second textured region opposite the semiconductor substrate. A first semiconductor layer can be coupled to the first intrinsic semiconductor layer opposite the first textured region, where the first semiconductor layer is doped to an opposite polarity of the doped semiconductor substrate.Type: ApplicationFiled: May 15, 2012Publication date: January 30, 2014Applicant: SiOnyx, Inc.Inventors: Xia Li, Christopher Vineis, Martin U. Pralle
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Publication number: 20130207214Abstract: Semiconductor devices having three dimensional (3D) architectures and methods form making such devices are provided. In one aspect, for example, a method for making a semiconductor device can include forming a device layer on a front side of a semiconductor layer that is substantially defect free, bonding a carrier substrate to the device layer, processing the semiconductor layer on a back side opposite the device layer to form a processed surface, and bonding a smart substrate to the processed surface. In some aspects, the method can also include removing the carrier substrate from the semiconductor layer to expose the device layer.Type: ApplicationFiled: December 12, 2012Publication date: August 15, 2013Applicant: SIONYX, INC.Inventor: SIONYX, INC.
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Publication number: 20130187250Abstract: Photosensitive semiconductor devices and associated methods are provided. In one aspect, for example, a photosensitive semiconductor device can include an electromagnetic radiation absorption layer having a thickness of less than or equal to about 200 ?m, wherein the electromagnetic radiation absorption layer includes a semiconductor material and an enhanced absorption region. The electromagnetic radiation absorption layer is operable to absorb greater than or equal to about 40% of incident electromagnetic radiation having at least one wavelength greater than or equal to about 1064 nm.Type: ApplicationFiled: December 3, 2012Publication date: July 25, 2013Applicant: SIONYX, INC.Inventor: SiOnyx, Inc.
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Publication number: 20130168792Abstract: Semiconductor devices having three dimensional (3D) architectures and methods form making such devices are provided. In one aspect, for example, a method for making a semiconductor device can include forming a device layer on a front side of a semiconductor layer that is substantially defect free, bonding a carrier substrate to the device layer, processing the semiconductor layer on a back side opposite the device layer to form a processed surface, and bonding a smart substrate to the processed surface. In some aspects, the method can also include removing the carrier substrate from the semiconductor layer to expose the device layer.Type: ApplicationFiled: October 15, 2012Publication date: July 4, 2013Applicant: SIONYX, INC.Inventor: SiOnyx, Inc.
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Publication number: 20130168826Abstract: Novel laser processed semiconductor materials, systems, and methods associated with the manufacture and use of such materials are provided. In one aspect, for example, a method of processing a semiconductor material can include providing a semiconductor material and irradiating a target region of the semiconductor material with a beam of laser radiation to form a laser treated region. The laser radiation is irradiated at an angle of incidence relative to the semiconductor material surface normal of from about 5° to about 89°, and the laser radiation can be at least substantially p-polarized.Type: ApplicationFiled: October 1, 2012Publication date: July 4, 2013Applicant: SiOnyx, Inc.Inventor: SiOnyx, Inc.
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Publication number: 20130168803Abstract: Semiconductor-on-insulator (SOI) devices and associated methods are provided. In one aspect, for example, a method for making a SOI device can include forming a device layer on a front side of a semiconductor layer, bonding a first substrate to the front side of the device layer, processing the semiconductor layer on a back side opposite the device layer to form a processed surface, and bonding a second substrate to the processed surface. In some aspects, the method can further include removing the first substrate from the front side to expose the device layer. In one aspect, forming the device layer can include forming optoelectronic circuitry at the front side of the semiconductor layer.Type: ApplicationFiled: September 17, 2012Publication date: July 4, 2013Applicant: SIONYX, INC.Inventors: Homayoon Haddad, Leonard Forbes
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Patent number: 8476598Abstract: Electromagnetic radiation detection systems and associated methods are provided. In one aspect, for example, an electromagnetic radiation detection system includes a semiconductor material operable to detect electromagnetic radiation, the semiconductor material having a responsivity of greater than or equal to 0.3 A/W at an operating voltage of less than or equal to about 50 volts and at a wavelength of from about 0.01 nm to about 100 nm. The system can further include an electromagnetic radiation source positioned to deliver electromagnetic radiation to the semiconductor material.Type: GrantFiled: August 31, 2010Date of Patent: July 2, 2013Assignee: SiOnyx, Inc.Inventors: Martin U. Pralle, James Carey, Stephen D. Saylor
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Patent number: 8476681Abstract: Backside illuminated photosensitive devices and associated methods are provided. In one aspect, for example, a backside-illuminated photosensitive imager device can include a semiconductor substrate having multiple doped regions forming a least one junction, a textured region coupled to the semiconductor substrate and positioned to interact with electromagnetic radiation, and a passivation region positioned between the textured region and the at least one junction. The passivation region is positioned to isolate the at least one junction from the textured region, and the semiconductor substrate and the textured region are positioned such that incoming electromagnetic radiation passes through the semiconductor substrate before contacting the textured region. Additionally, the device includes an electrical transfer element coupled to the semiconductor substrate to transfer an electrical signal from the at least one junction.Type: GrantFiled: March 17, 2011Date of Patent: July 2, 2013Assignee: Sionyx, Inc.Inventors: Homayoon Haddad, Jutao Jiang, Jeffrey McKee, Drake Miller, Chintamani Palsule, Leonard Forbes
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Publication number: 20130099103Abstract: A light-sensing pixel for detecting at least a portion of the electromagnetic spectrum includes a first detector element having a micro-structured surface for detecting an infrared range of wavelengths of the electromagnetic spectrum. The light-sensing pixel further includes a second detector element for detecting a second range of wavelengths of the electromagnetic spectrum, wherein the second range of wavelengths is shorter than the first range of wavelengths and the first and second detector element are formed monolithically on a silicon substrate.Type: ApplicationFiled: October 15, 2012Publication date: April 25, 2013Applicant: SIONYX, INC.Inventor: SIONYX, INC.
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Publication number: 20130062522Abstract: 3D sensors, systems, and associated methods are provided. In one aspect, for example, a monolithic 3D sensor for detecting infrared and visible light can include a semiconductor substrate having a device surface, at least one visible light photodiode formed at the device surface and at least one 3D photodiode formed at the device surface in proximity to the at least one visible light photodiode. The device can further include a quantum efficiency enhanced infrared light region functionally coupled to the at least one 3D photodiode and positioned to interact with electromagnetic radiation. In one aspect, the quantum efficiency enhanced infrared light region is a textured region located at the device surface.Type: ApplicationFiled: March 12, 2012Publication date: March 14, 2013Applicant: SiOnyx, Inc.Inventors: Jutao Jiang, Jeffrey McKee, Homayoon Haddad, Chris Sungkwon Hong
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Publication number: 20130001553Abstract: Optoelectronic devices, materials, and associated methods having increased operating performance are provided. In one aspect, for example, an optoelectronic device can include a semiconductor material, a first doped region in the semiconductor material, a second doped region in the semiconductor material forming a junction with the first doped region, and a laser processed region associated with the junction. The laser processed region is positioned to interact with electromagnetic radiation. Additionally, at least a portion of a region of laser damage from the laser processed region has been removed such that the optoelectronic device has an open circuit voltage of from about 500 mV to about 800 mV.Type: ApplicationFiled: December 21, 2011Publication date: January 3, 2013Applicant: SiOnyx, Inc.Inventors: Christopher Vineis, James Carey, Xia Li
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High Fill-Factor Laser-Treated Semiconductor Device on Bulk Material with Single Side Contact Scheme
Publication number: 20130001729Abstract: The present disclosure provides systems and methods for configuring and constructing a single photo detector or array of photo detectors with all fabrications circuitry on a single side of the device. Both the anode and the cathode contacts of the diode are placed on a single side, while a layer of laser treated semiconductor is placed on the opposite side for enhanced cost-effectiveness, photon detection, and fill factor.Type: ApplicationFiled: July 2, 2012Publication date: January 3, 2013Applicant: SiOnyx, Inc.Inventors: Neal T. Kurfiss, James E. Carey, Xia Li -
Publication number: 20120326008Abstract: Transistor pixel devices, imagers, and associated methods are provided. In one aspect, a transistor pixel device includes a photodiode coupled to a floating diffusion region (FD), a storage node (SN), and a power supply, wherein the FD is coupled between the photodiode and the power supply. The device also includes a first global transfer transistor coupled between the photodiode and the FD for gating between the photodiode and the FD and a second global transfer transistor coupled between the FD and the SN for gating between the FD and the SN. A global reset select transistor is coupled between the FD and the power supply, wherein an open state of the global reset select transistor prevents accumulation of electrical charge at the photodiodes. A source follower transistor is coupled to the FD and to the power supply, where the source follower is operable to receive electrical signal from the FD.Type: ApplicationFiled: December 21, 2011Publication date: December 27, 2012Applicant: SiOnyx, Inc.Inventors: Jeffrey McKee, Jutao Jiang