| Patent application number | Description | Published |
|---|
| 20090152664 | Materials, Systems and Methods for Optoelectronic Devices - A photodetector is described along with corresponding materials, systems, and methods. The photodetector comprises an integrated circuit and at least two optically sensitive layers. A first optically sensitive layer is over at least a portion of the integrated circuit, and a second optically sensitive layer is over the first optically sensitive layer. Each optically sensitive layer is interposed between two electrodes. The two electrodes include a respective first electrode and a respective second electrode. The integrated circuit selectively applies a bias to the electrodes and reads signals from the optically sensitive layers. The signal is related to the number of photons received by the respective optically sensitive layer. | 06-18-2009 |
| 20100019334 | Materials, Fabrication Equipment, and Methods for Stable, Sensitive Photodetectors and Image Sensors Made Therefrom - Optically sensitive devices include a device comprising a first contact and a second contact, each having a work function, and an optically sensitive material between the first contact and the second contact. The optically sensitive material comprises a p-type semiconductor, and the optically sensitive material has a work function. Circuitry applies a bias voltage between the first contact and the second contact. The optically sensitive material has an electron lifetime that is greater than the electron transit time from the first contact to the second contact when the bias is applied between the first contact and the second contact. The first contact provides injection of electrons and blocking the extraction of holes. The interface between the first contact and the optically sensitive material provides a surface recombination velocity less than 1 cm/s. | 01-28-2010 |
| 20100019335 | Materials, Fabrication Equipment, and Methods for Stable, Sensitive Photodetectors and Image Sensors Made Therefrom - Optically sensitive devices include a device comprising a first contact and a second contact, each having a work function, and an optically sensitive material between the first contact and the second contact. The optically sensitive material comprises an n-type semiconductor, and the optically sensitive material has a work function. Circuitry applies a bias voltage between the first contact and the second contact. The optically sensitive material has an electron lifetime that is greater than the electron transit time from the first contact to the second contact when the bias is applied between the first contact and the second contact. The first contact provides injection of electrons and blocking the extraction of holes. The interface between the first contact and the optically sensitive material provides a surface recombination velocity less than 1 cm/s. | 01-28-2010 |
| 20100187404 | MATERIALS, SYSTEMS AND METHODS FOR OPTOELECTRONIC DEVICES - A photodetector is described along with corresponding materials, systems, and methods. The photodetector comprises an integrated circuit and at least two optically sensitive layers. A first optically sensitive layer is over at least a portion of the integrated circuit, and a second optically sensitive layer is over the first optically sensitive layer. Each optically sensitive layer is interposed between two electrodes. The two electrodes include a respective first electrode and a respective second electrode. The integrated circuit selectively applies a bias to the electrodes and reads signals from the optically sensitive layers. The signal is related to the number of photons received by the respective optically sensitive layer. | 07-29-2010 |
| 20100187408 | MATERIALS, SYSTEMS AND METHODS FOR OPTOELECTRONIC DEVICES - A photodetector is described along with corresponding materials, systems, and methods. The photodetector comprises an integrated circuit and at least two optically sensitive layers. A first optically sensitive layer is over at least a portion of the integrated circuit, and a second optically sensitive layer is over the first optically sensitive layer. Each optically sensitive layer is interposed between two electrodes. The two electrodes include a respective first electrode and a respective second electrode. The integrated circuit selectively applies a bias to the electrodes and reads signals from the optically sensitive layers. The signal is related to the number of photons received by the respective optically sensitive layer. | 07-29-2010 |
| 20110101205 | SYSTEMS AND METHODS FOR COLOR BINNING - In various exemplary embodiments, optically sensitive devices comprise a plurality of pixel regions. Each pixel region includes an optically sensitive layer over a substrate and has subpixel regions for separate wavebands. A pixel circuit comprises a charge store and a read out circuit for each subpixel region. Circuitry is configured to select a plurality of subpixel elements from different pixels that correspond to the same waveband for simultaneous reading to a shared read out circuit. | 05-05-2011 |
| 20110226934 | IMAGE SENSORS EMPLOYING SENSITIZED SEMICONDUCTOR DIODES - In various example embodiments, the inventive subject matter is an image sensor and methods of formation of image sensors. In an embodiment, the image sensor comprises a semiconductor substrate and a plurality of pixel regions. Each of the pixel regions includes an optically sensitive material over the substrate with the optically sensitive material positioned to receive light. A pixel circuit for each pixel region is also included in the sensor. Each pixel circuit comprises a charge store formed on the semiconductor substrate and a read out circuit. A non-metallic contact region is between the charge store and the optically sensitive material of the respective pixel region, the charge store being in electrical communication with the optically sensitive material of the respective pixel region through the non-metallic contact region. | 09-22-2011 |
| 20110228144 | DARK CURRENT REDUCTION IN IMAGE SENSORS VIA DYNAMIC ELECTRICAL BIASING - In various embodiments, an image sensor and method of using an image sensor are described. In an example embodiment, the image sensor comprises a semiconductor substrate and a plurality of pixel regions with each pixel region comprising an optically sensitive material over the substrate and positioned to receive light. There is a bias electrode for each pixel region, with the bias electrode configured to provide a bias voltage to the optically sensitive material of the respective pixel region. Also included is a pixel circuit for each pixel region with each pixel circuit comprising a charge store formed on the semiconductor substrate and a read out circuit, the charge store being in electrical communication with the optically sensitive material of the respective pixel region. The pixel circuit is configured to reset the voltage on the charge store to a reset voltage during a reset period, to integrate charge from the optically sensitive material to the charge store during an integration period, and to read out a signal from the charge store during a read out period. The pixel circuit includes a reference voltage node to be coupled to the charge store during the reset period and the read out circuit during the read out period where a reference voltage is applied to the reference voltage node and is configured to be varied during the operation of the pixel circuit. | 09-22-2011 |
