Patent application number | Description | Published |
20080224250 | Image Sensor and Method of Fabricating The Same - Provided are an image sensor and a method of fabricating the same. The image sensor according to an embodiment includes a semiconductor substrate including a circuit region; a metal interconnection layer including a metal interconnection and an interlayer dielectric on the semiconductor substrate; a plurality of first pixel isolation layers on the interlayer dielectric, each of the first pixel isolation layers protruding above a top surface of the interlayer dielectric; and a light receiving portion between the first pixel isolation layers, the light receiving portion including protruding portions along sidewalls of the first pixel isolation layers. | 09-18-2008 |
20090057725 | Image Sensor and Manufacturing Method Thereof - Disclosed is an image sensor. The image sensor includes a semiconductor substrate including a lower interconnection, a plurality of upper interconnection sections protruding upward from the semiconductor substrate, a first trench disposed between the upper interconnection sections such that the upper interconnection sections are spaced apart from each other, a bottom electrode disposed on an outer peripheral surfaces of the upper interconnection sections, a first conductive layer disposed on an outer peripheral surface of the bottom electrode, an intrinsic layer disposed on the semiconductor substrate including the first conductive layer and the first trench, and having a second trench on the first trench, a second conductive layer disposed on the intrinsic layer and having a third trench on the second trench, a light blocking part disposed in the third trench, and a top electrode disposed on the light blocking part and the second conductive layer. | 03-05-2009 |
20090115014 | Image Sensor and Method for Manufacturing The Same - Provided is an image sensor and a method for manufacturing the same. The image sensor includes a substrate on which a circuitry including a first lower metal line and a second lower metal line is formed. A lower electrode is formed on the first lower metal line. A separation metal pattern surrounds the lower electrode and connected to the second lower metal line. An intrinsic layer is formed on the lower electrode. A second conductive type conduction layer is formed on the intrinsic layer. An upper electrode is formed on the second conductive type conduction layer. A bias can be applied to the second lower metal line such that the separation metal pattern can provide a Schottky Barrier, directing electrons to the lower electrode and inhibiting crosstalk between pixels. | 05-07-2009 |
20090134487 | IMAGE SENSOR AND METHOD FOR MANUFACTURING THE SAME - An image sensor includes a first substrate, a lower metal line, a circuitry, a first insulating layer, a crystalline semiconductor layer, a photodiode, and a contact line. The lower metal line and the circuitry are formed on and/or over the first substrate and the first insulating layer is formed on and/or over the lower metal line. The crystalline semiconductor layer contacts the first insulating layer and is bonded to the first substrate. The photodiode is formed in the crystalline semiconductor layer. The contact line electrically connects the photodiode to the lower metal line. | 05-28-2009 |
20090174024 | IMAGE SENSOR AND METHOD FOR MANUFACTURING THE SAME - Embodiments relate to an image sensor and a method of manufacturing the same. According to embodiments, an image sensor may include a first substrate having circuitry formed thereon. It may further include a photodiode bonded to the first substrate and electrically connected to the circuitry, and a contact plug at a pixel border that may be electrically connected with the circuitry and the photodiode. According to embodiments, the photodiode may include a first conductive type ion implantation region selectively provided in a crystalline semiconductor layer, and a second conductive type ion implantation region in contact with one side surface of the first conductive type ion implantation region. | 07-09-2009 |
20100025800 | Image Sensor and Manufacturing Method Thereof - An image sensor having greatly improved physical and electrical bonding forces between a photodiode and a substrate, and a manufacturing method thereof. The image sensor includes a semiconductor substrate and readout circuitry, a dielectric layer on the semiconductor substrate, a metal line in the dielectric layer, electrically connected with the readout circuitry, an image sensing device including first and second impurity regions on the dielectric layer, a via hole through the dielectric layer and the image sensing device, a hard mask in the via hole, and a lower electrode in the via hole to connect the first impurity region with the metal line. | 02-04-2010 |
20100026863 | IMAGE SENSOR AND FABRICATION METHOD THEREOF - An image sensor is provided. The image sensor comprises a semiconductor substrate, a dielectric interlayer, an interconnection, an image sensing unit, a via hole piercing the image sensing unit and the dielectric layer, and a bottom electrode. The semiconductor substrate includes a readout circuit. The dielectric interlayer is disposed on the semiconductor substrate. The interconnection is disposed in the dielectric interlayer and connected electrically to the readout circuit. The image sensing unit is disposed on the dielectric interlayer and includes a stack of a first impurity region and a second impurity region. The via hole pierces the image sensing unit and the dielectric interlayer to expose the interconnection. The bottom electrode is disposed in the via hole to electrically connect the interconnection and the first impurity region of the image sensing unit. | 02-04-2010 |
20100029032 | Method for Fabricating Image Sensor - A method for fabricating an image sensor is provided. In the image sensor fabrication method, an interconnection and a dielectric interlayer are formed on a semiconductor substrate including a readout circuit. An image sensing unit is formed on a carrier substrate of one side of a dielectric layer. The carrier substrate and the dielectric interlayer are bonded to each other. The dielectric layer and the carrier substrate are removed to leave the image sensing unit on the dielectric interlayer. | 02-04-2010 |