Patent application number | Description | Published |
20100148221 | VERTICAL PHOTOGATE (VPG) PIXEL STRUCTURE WITH NANOWIRES - An embodiment relates to a device comprising a nanowire photodiode comprising a nanowire and at least on vertical photogate operably coupled to the nanowire photodiode. | 06-17-2010 |
20110079704 | NANO WIRE BASED PASSIVE PIXEL IMAGE SENSOR - An imaging device including a plurality of photo-sensitive elements suitable for imaging small objects less than 500 nm in size. Each of the photo-sentive elements forms a passive pixel which comprises at least one nanowire structured photodetector and a switch transistor. The nanowire structured photodetector is configured to receive the photons and store the photo generated charges and behave as a waveguide. The switch transistor is formed either in the substrate or at the same body of the nanowire and is configured to allow photo-genereated charges in the nanowire to accumulate when off and to drain from the nanowire when on. The pixel array is configured to allow high resolution imaging by arranging in a penny round pattern. | 04-07-2011 |
20110133060 | ACTIVE PIXEL SENSOR WITH NANOWIRE STRUCTURED PHOTODETECTORS - An imaging device formed as an active pixel array combining a CMOS fabrication process and a nanowire fabrication process. The pixels in the array may include a single or multiple photogates surrounding the nanowire. The photogates control the potential profile in the nanowire, allowing accumulation of photo-generated charges in the nanowire and transfer of the charges for signal readout. Each pixel may also include a readout circuit which may include a reset transistor, a charge transfer switch transistor, source follower amplifier, and pixel select transistor. A nanowire is generally structured as a vertical rod on the bulk semiconductor substrate to receive the light energy impinging onto the tip of the nanowire. The nanowire may be configured to function as either a photodetector or a waveguide configured to guild the light beam to the bulk substrate. In the embodiments herein, with the presence of the nanowire photogate and a substrate photogate, light of different wavelengths can be detected. | 06-09-2011 |
20110133061 | NANOWIRE PHOTO-DETECTOR GROWN ON A BACK-SIDE ILLUMINATED IMAGE SENSOR - An embodiment relates to a device comprising a substrate having a front side and a back-side that is exposed to incoming radiation, a nanowire disposed on the substrate and an image sensing circuit disposed on the front side, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. | 06-09-2011 |
20110133160 | NANOWIRE STRUCTURED PHOTODIODE WITH A SURROUNDING EPITAXIALLY GROWN P OR N LAYER - An embodiment relates to a device comprising a substrate, a nanowire and a doped epitaxial layer surrounding the nanowire, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. Another embodiment relates to a device comprising a substrate, a nanowire and one or more photogates surrounding the nanowire, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire, and wherein the one or more photogates comprise an epitaxial layer. | 06-09-2011 |
20110136288 | MANUFACTURING NANOWIRE PHOTO-DETECTOR GROWN ON A BACK-SIDE ILLUMINATED IMAGE SENSOR - An embodiment relates to a method of manufacturing a device comprising a substrate having a front side and a back-side, a nanowire disposed on the back-side and an image sensing circuit disposed on the front side, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. | 06-09-2011 |
20110226937 | VERTICAL PILLAR STRUCTURED PHOTOVOLTAIC DEVICES WITH MIRRORS AND OPTICAL CLADDINGS - A photovoltaic device operable to convert light to electricity, comprising a substrate, a plurality of structures essentially perpendicular to the substrate, one or more recesses between the structures, each recess having a planar mirror on a bottom wall thereof. The structures have p-n or p-i-n junctions for converting light into electricity. The planar mirrors function as an electrode and can reflect light incident thereon back to the structures to be converted into electricity. | 09-22-2011 |
20110309240 | POLARIZED LIGHT DETECTING DEVICE AND FABRICATION METHODS OF THE SAME - Described herein is a device operable to detect polarized light comprising: a substrate; a first subpixel; a second subpixel adjacent to the first subpixel; a first plurality of features in the first subpixel and a second plurality of features in the second subpixel, wherein the first plurality of features extend essentially perpendicularly from the substrate and extend essentially in parallel in a first direction parallel to the substrate and the second plurality of features extend essentially perpendicularly from the substrate and extend essentially in parallel in a second direction parallel to the substrate; wherein the first direction and the second direction are different; the first plurality of features and the second plurality of features react differently to the polarized light. | 12-22-2011 |
20110309331 | SOLAR BLIND ULTRA VIOLET (UV) DETECTOR AND FABRICATION METHODS OF THE SAME - Described herein is device configured to be a solar-blind UV detector comprising a substrate; a plurality of pixels; a plurality of nanowires in each of the plurality of pixel, wherein the plurality of nanowires extend essentially perpendicularly from the substrate. | 12-22-2011 |
20110315988 | PASSIVATED UPSTANDING NANOSTRUCTURES AND METHODS OF MAKING THE SAME - Described herein is a device comprising: a substrate; one or more of a nanostructure extending essentially perpendicularly from the substrate; wherein the nanostructure comprises a core of a doped semiconductor, an first layer disposed on the core, and a second layer of an opposite type from the core and disposed on the first layer. | 12-29-2011 |
20120001284 | SILICON NITRIDE LIGHT PIPES FOR IMAGE SENSORS - Various embodiments for etching of silicon nitride (Si | 01-05-2012 |
20120153124 | VERTICALLY STRUCTURED PASSIVE PIXEL ARRAYS AND METHODS FOR FABRICATING THE SAME - An image sensor and methods of use the image sensor, methods of manufacturing the image sensor, and apparatuses comprising the image sensor are disclosed. The image sensor has pixels includes at least one nanopillar with a gate electrode surrounding the at least one nanopillar, wherein the at least one nanopillar is adapted to convert light impinging thereon to electrical signals and the gate electrode is operable to pinch off or allow current flow through the at least one nanopillar. The image sensor can have a plurality of pixels arranged in an individually addressable fashion. The at least one nanopillar has a cladding. A refractive index of the cladding being smaller than a refractive index of the nanopillar. | 06-21-2012 |
20120168613 | NANOWIRE ARRAY BASED SOLAR ENERGY HARVESTING DEVICE - A photovoltaic device operable to convert light to electricity, comprising a substrate, a plurality of structures essentially perpendicular to the substrate, one or more recesses between the structures, each recess having a planar mirror on a bottom wall thereof and each recess filled with a transparent material. The structures have p-n or p-i-n junctions for converting light into electricity. The planar mirrors function as an electrode and can reflect light incident thereon back to the structures to be converted into electricity. | 07-05-2012 |
20120298843 | NANOWIRE PHOTO-DETECTOR GROWN ON A BACK-SIDE ILLUMINATED IMAGER SENSOR - An embodiment relates to a device comprising a substrate having a front side and a back-side that is exposed to incoming radiation, a nanowire disposed on the substrate and an image sensing circuit disposed on the front side, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. | 11-29-2012 |
20130009040 | ACTIVE PIXEL SENSOR WITH NANOWIRE STRUCTURED PHOTODETECTORS - “An imaging device formed as an active pixel array combining a CMOS fabrication process and a nanowire fabrication process. The pixels in the array may include a single or multiple photogates surrounding the nanowire. The photogates control the potential profile in the nanowire, allowing accumulation of photo-generated charges in the nanowire and transfer of the charges for signal readout. Each pixel may include a readout circuit which may include a reset transistor, charge transfer switch transistor, source follower amplifier, and pixel select transistor. A nanowire is generally structured as a vertical rod on the bulk semiconductor substrate to receive light energy impinging onto the tip of the nanowire. The nanowire may be configured to function as either a photodetector or a waveguide configured to guild the light to the substrate. Light of different wavelengths can be detected using the imaging device.” | 01-10-2013 |
20130112256 | VERTICAL PILLAR STRUCTURED PHOTOVOLTAIC DEVICES WITH WAVELENGTH-SELECTIVE MIRRORS - A photovoltaic device operable to convert light to electricity, comprising a substrate, one or more structures essentially perpendicular to the substrate, and a wavelength-selective layer disposed on the substrate, wherein the structures comprise a crystalline semiconductor material. | 05-09-2013 |
20130341749 | NANOWIRE STRUCTURED PHOTODIODE WITH A SURROUNDING EPITAXIALLY GROWN P OR N LAYER - An embodiment relates to a device comprising a substrate, a nanowire and a doped epitaxial layer surrounding the nanowire, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. Another embodiment relates to a device comprising a substrate, a nanowire and one or more photogates surrounding the nanowire, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire, and wherein the one or more photogates comprise an epitaxial layer. | 12-26-2013 |
20140054661 | NANOWIRE PHOTO-DETECTOR GROWN ON A BACK-SIDE ILLUMINATED IMAGE SENSOR - An embodiment relates to a device comprising a substrate having a front side and a back-side, a nanowire disposed on the back-side and an image sensing circuit disposed on the front side, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. | 02-27-2014 |
20140150857 | MULTI-JUNCTION MULTI-TAB PHOTOVOLTAIC DEVICES - Described herein is a photovoltaic device operable to convert light to electricity, comprising a substrate, a first junction, a second junction and a third junction; wherein the first junction and the second junction are arranged with opposite polarity and the second junction and the third junction are arranged with opposite polarity. The photovoltaic device may further comprise a terminal directly electrically connected to anodes of the first and second junctions or to cathodes of the first and second junctions. | 06-05-2014 |
20140252314 | NANOWIRE PHOTO-DETECTOR GROWN ON A BACK-SIDE ILLUMINATED IMAGE SENSOR - An embodiment relates to a device comprising a substrate having a front side and a back-side, a nanowire disposed on the back-side and an image sensing circuit disposed on the front side, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. | 09-11-2014 |
20140339666 | POLARIZED LIGHT DETECTING DEVICE AND FABRICATION METHODS OF THE SAME - Described herein is a device operable to detect polarized light comprising: a substrate; a first subpixel; a second subpixel adjacent to the first subpixel; a first plurality of features in the first subpixel and a second plurality of features in the second subpixel, wherein the first plurality of features extend essentially perpendicularly from the substrate and extend essentially in parallel in a first direction parallel to the substrate and the second plurality of features extend essentially perpendicularly from the substrate and extend essentially in parallel in a second direction parallel to the substrate; wherein the first direction and the second direction are different; the first plurality of features and the second plurality of features react differently to the polarized light. | 11-20-2014 |
20140361356 | ACTIVE PIXEL SENSOR WITH NANOWIRE STRUCTURED PHOTODETECTORS - An imaging device formed as an active pixel array combining a CMOS fabrication process and a nanowire fabrication process. The pixels in the array may include a single or multiple photogates surrounding the nanowire. The photogates control the potential profile in the nanowire, allowing accumulation of photo-generated charges in the nanowire and transfer of the charges for signal readout. Each pixel may include a readout circuit which may include a reset transistor, charge transfer switch transistor, source follower amplifier, and pixel select transistor. A nanowire is generally structured as a vertical rod on the bulk semiconductor substrate to receive light energy impinging onto the tip of the nanowire. The nanowire may be configured to function as either a photodetector or a waveguide configured to guild the light to the substrate. Light of different wavelengths can be detected using the imaging device. | 12-11-2014 |
20150041937 | NANOWIRE STRUCTURED COLOR FILTER ARRAYS AND FABRICATION METHOD OF THE SAME - Color filter array devices and methods of making color filter array devices are disclosed herein. A color filter array may include a substrate having a plurality of pixels thereon, one or more nanowires associated with each of the plurality of pixels, wherein each of the one or more nanowires extends substantially perpendicularly from the substrate, and an optical coupler associated with each of the one or more nanowires. A method of making a color filter array may include, making an array of nanowires, wherein each of the nanowires extend substantially perpendicularly from a substrate, disposing a transparent polymer material to substantially encapsulate the nanowires, removing the nanowires from the substrate, providing a pixel array comprising a plurality of pixels, wherein a hard polymer substantially covers an image plane of the pixel array, disposing the array of nanowires on the pixel array, and removing the transparent polymer encapsulating the nanowires. | 02-12-2015 |
20150053860 | MANUFACTURING NANOWIRE PHOTO-DETECTOR GROWN ON A BACK-SIDE ILLUMINATED IMAGE SENSOR - An embodiment relates to a method of manufacturing a device comprising a substrate having a front side and a back-side, a nanowire disposed on the back-side and an image sensing circuit disposed on the front side, wherein the nanowire is configured to be both a channel to transmit wavelengths up to a selective wavelength and an active element to detect the wavelengths up to the selective wavelength transmitted through the nanowire. | 02-26-2015 |
20150075599 | PILLAR STRUCTURED MULTIJUNCTION PHOTOVOLTAIC DEVICES - A device operable to convert light to electricity, comprising: a substrate comprising a semiconductor material, one or more structures essentially perpendicular to the substrate, one or more layers conformally disposed on the one or more structures wherein the one or more structures and the one or more layers form one or more junctions, and an electrically conductive material disposed on the substrate in the area between the one or more structures. | 03-19-2015 |