Patent application number | Description | Published |
20100065912 | STACKED SEMICONDUCTOR DEVICE AND RELATED METHOD - A stacked semiconductor device and a method for fabricating the stacked semiconductor device are disclosed. The stacked semiconductor device includes a first insulating interlayer having an opening that partially exposes a substrate, wherein the substrate includes single crystalline silicon, and a first seed pattern that fills the opening, wherein the first seed pattern has an upper portion disposed over the opening, and the upper portion is tapered away from the substrate. The stacked semiconductor device further includes a second insulating interlayer formed on the first insulating interlayer, wherein a trench that exposes the upper portion of the first seed pattern penetrates the second insulating interlayer, and a first single crystalline silicon structure that fills the trench. | 03-18-2010 |
20110318922 | METHOD OF FORMING SEMICONDUCTOR DEVICE - The methods include forming a semiconductor substrate pattern by etching a semiconductor substrate. The semiconductor pattern has a first via hole that exposes side walls of the semiconductor substrate pattern, and the side walls of the semiconductor substrate pattern exposed by the first via hole have an impurity layer pattern. The methods further include treating upper surfaces of the semiconductor substrate pattern, the treated upper surfaces of the semiconductor substrate pattern being hydrophobic; removing the impurity layer pattern from the side walls of the semiconductor substrate pattern exposed by the first via hole; forming a first insulating layer pattern on the side walls of the semiconductor substrate pattern exposed by the first via hole; and filling a first conductive layer pattern into the first via hole and over the first insulating layer pattern. | 12-29-2011 |
20110318923 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME INCLUDING A CONDUCTIVE STRUCTURE IS FORMED THROUGH AT LEAST ONE DIELECTRIC LAYER AFTER FORMING A VIA STRUCTURE - For forming a semiconductor device, a via structure is formed through at least one dielectric layer and at least a portion of a substrate. In addition, a protective buffer layer is formed onto the via structure. Furthermore, a conductive structure for an integrated circuit is formed over the substrate after forming the via structure and the protective buffer layer, with the conductive structure not being formed over the via structure. Thus, deterioration of the conductive and via structures is minimized. | 12-29-2011 |
20120043666 | Semiconductor Device and Method of Fabricating the Same - For forming a semiconductor device, a via structure is formed through at least one dielectric layer and at least a portion of a substrate. In addition, a protective buffer layer is formed onto the via structure. Furthermore, a conductive structure for an integrated circuit is formed over the substrate after forming the via structure and the protective buffer layer, with the conductive structure not being formed over the via structure. Thus, deterioration of the conductive and via structures is minimized. | 02-23-2012 |
20120132986 | SEMICONDUCTOR DEVICES AND METHODS OF MANUFACTURING THE SAME - A semiconductor device includes a substrate having a plurality of horizontal channel transistors formed thereon, an insulation layer structure on the substrate and covering the horizontal transistors, and a plurality of vertical channel transistors on the insulation layer structure. | 05-31-2012 |
20120142185 | METHODS OF MANUFACTURING A SEMICONDUCTOR DEVICE - In methods of manufacturing a semiconductor device, a substrate having a first surface and a second surface opposite to the first surface is prepared. A sacrificial layer pattern is formed in a region of the substrate that a through electrode will be formed. The sacrificial layer pattern extends from the first surface of the substrate in a thickness direction of the substrate. An upper wiring layer is formed on the first surface of the substrate. The upper wiring layer includes a wiring on the sacrificial layer pattern. The second surface of the substrate is partially removed to expose the sacrificial layer pattern. The sacrificial layer pattern is removed from the second surface of the substrate to form an opening that exposes the wiring. A through electrode is formed in the opening to be electrically connected to the wiring. | 06-07-2012 |
20120282736 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING A SEMICONDUCTOR PACKAGE INCLUDING THE SAME - In a method of manufacturing a semiconductor device, a front end of line (FEOL) process may be performed on a semiconductor substrate to form a semiconductor structure. A back end of line (BEOL) process may be performed on the semiconductor substrate to form a wiring structure electrically connected to the semiconductor structure, thereby formed a semiconductor chip. A hole may be formed through a part of the semiconductor chip. A preliminary plug may have a dimple in the hole. The preliminary plug may be expanded into the dimple by a thermal treatment process to form a plug. Thus, the plug may not have a protrusion protruding from the upper surface of the semiconductor chip, so that the plug may be formed by the single CMP process. | 11-08-2012 |
20130140697 | Electrode Connecting Structures Containing Copper - Provided are electrode-connecting structures or semiconductor devices, including a lower device including a lower substrate, a lower insulating layer formed on the lower substrate, and a lower electrode structure formed in the lower insulating layer, wherein the lower electrode structure includes a lower electrode barrier layer and a lower metal electrode formed on the lower electrode barrier layer, and an upper device including an upper substrate, an upper insulating layer formed under the upper substrate, and an upper electrode structure formed in the upper insulating layer, wherein the upper electrode structure includes an upper electrode barrier layer extending from the inside of the upper insulating layer under a bottom surface thereof and an upper metal electrode formed on the upper electrode barrier layer. The lower metal electrode is in direct contact with the upper metal electrode. | 06-06-2013 |
20130187287 | Semiconductor Device and Method of Fabricating the Same - A semiconductor device includes a circuit pattern over a first surface of a substrate, an insulating interlayer covering the circuit pattern, a TSV structure filling a via hole through the insulating interlayer and the substrate, an insulation layer structure on an inner wall of the via hole and on a top surface of the insulating interlayer, a buffer layer on the TSV structure and the insulation layer structure, a conductive structure through the insulation layer structure and a portion of the insulating interlayer to be electrically connected to the circuit pattern, a contact pad onto a bottom of the TSV structure, and a protective layer structure on a second surface the substrate to surround the contact pad. | 07-25-2013 |
20130337647 | METHODS OF FORMING A SEMICONDUCTOR DEVICE - The methods include forming a semiconductor substrate pattern by etching a semiconductor substrate. The semiconductor pattern has a first via hole that exposes side walls of the semiconductor substrate pattern, and the side walls of the semiconductor substrate pattern exposed by the first via hole have an impurity layer pattern. The methods further include treating upper surfaces of the semiconductor substrate pattern, the treated upper surfaces of the semiconductor substrate pattern being hydrophobic; removing the impurity layer pattern from the side walls of the semiconductor substrate pattern exposed by the first via hole; forming a first insulating layer pattern on the side walls of the semiconductor substrate pattern exposed by the first via hole; and filling a first conductive layer pattern into the first via hole and over the first insulating layer pattern. | 12-19-2013 |
20150028450 | INTEGRATED CIRCUIT DEVICE INCLUDING THROUGH-SILICON VIA STRUCTURE AND DECOUPLING CAPACITOR AND METHOD OF MANUFACTURING THE SAME - An integrated circuit device is provided which includes a through-silicon via (TSV) structure and one or more decoupling capacitors, along with a method of manufacturing the same. The integrated circuit device may include a semiconductor structure including a semiconductor substrate, a TSV structure passing through the semiconductor substrate, and a decoupling capacitor formed in the semiconductor substrate and connected to the TSV structure. The TSV structure and the one or more decoupling capacitors may be substantially simultaneously formed. A plurality of decoupling capacitors may be disposed within a keep out zone (KOZ) of the TSV structure. The plurality of decoupling capacitors may have the same or different widths and/or depths. An isopotential conductive layer may be formed to reduce or eliminate a potential difference between different parts of the TSV structure. | 01-29-2015 |
20150028494 | INTEGRATED CIRCUIT DEVICE HAVING THROUGH-SILICON-VIA STRUCTURE AND METHOD OF MANUFACTURING THE INTEGRATED CIRCUIT DEVICE - Provided is an integrated circuit device including a through-silicon-via (TSV) structure and a method of manufacturing the integrated circuit device. The integrated circuit device includes a semiconductor structure including a substrate and an interlayer insulating film, a TSV structure passing through the substrate and the interlayer insulating film, a via insulating film substantially surrounding the TSV structure, and an insulating spacer disposed between the interlayer insulating film and the via insulating film. | 01-29-2015 |