| Patent application number | Description | Published |
|---|
| 20100151655 | METHOD OF FORMING A FINE PATTERN OF A SEMICONUCTOR DEVICE USING A DOUBLE PATTERNING TECHNIQUE - A method of forming a fine pattern of a semiconductor device uses a double patterning technique. A first mask pattern is formed on a first hard mask layer disposed on a substrate. A conformal buffer layer is formed over the first mask pattern. A second mask pattern is formed such that segments of the buffer layer are interposed between the first and second mask patterns, and each topographical feature of the second mask pattern is disposed between two adjacent ones of each respective pair of topographical features of the first mask pattern. A first hard mask pattern is formed by etching the first hard mask layer using the first mask pattern, the second mask pattern, and/or the buffer layer as an etch mask. A trench is formed by etching the substrate using the first hard mask pattern as an etch mask. An isolation layer, of a material that is different from that of first hard mask pattern, is formed in the trench. | 06-17-2010 |
| 20100193880 | Semiconductor device and method of forming the same - A semiconductor device, and a method of forming the same, includes forming a cell bit line pattern and a peripheral gate pattern on a semiconductor substrate. The cell bit line pattern may be formed on an inactive region adjacent to a cell active region of the semiconductor substrate. The peripheral gate pattern may be disposed on a peripheral active region of the semiconductor substrate. A cell contact plug may be formed between the cell bit line pattern and the cell active region. A peripheral contact plug may be formed on the peripheral active region on a side of the peripheral gate pattern. An insulating layer may be formed to expose top surfaces of the cell bit line pattern, the peripheral gate pattern, and the cell and peripheral contact plugs at substantially the same level. | 08-05-2010 |
| 20100221875 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES INCLUDING GATE PATTERNS HAVING STEP DIFFERENCE THEREBETWEEN AND A CONNECTION LINE DISPOSED BETWEEN THE GATE PATTERNS AND METHODS OF FABRICATING THE SAME - Provided are semiconductor integrated circuit (IC) devices including gate patterns having a step difference therebetween and a connection line interposed between the gate patterns. The semiconductor IC device includes a semiconductor substrate including a peripheral active region, a cell active region, and a device isolation layer. Cell gate patterns are disposed on the cell active region and the device isolation layer. A peripheral gate pattern is disposed on the peripheral active region. A cell electrical node is disposed on the cell active region adjacent to the cell gate patterns. Peripheral electrical nodes are disposed on the peripheral active region adjacent to the peripheral gate pattern. Connection lines are disposed on the cell gate patterns disposed on the device isolation layer. The connection lines are connected between the cell gate patterns and the peripheral gate pattern. | 09-02-2010 |
| 20100237394 | Semiconductor memory device - A semiconductor memory device includes unit active regions, word lines extending in a first direction over the unit active region, bit lines extending on the word lines in a second direction substantially perpendicularly to the first direction, first pad contacts in contact with central portions of the unit active regions, the first pad contacts being arranged between the word lines, direct contacts electrically connected between the first pad contacts and the bit lines, second pad contacts in contact with edge portions of the unit active regions, the second pad contacts being arranged between the word lines and between the bit lines, buried contacts electrically connected to the second pad contacts, and capacitors electrically connected to the buried contacts. | 09-23-2010 |
| 20110095350 | VERTICAL TYPE INTEGRATED CIRCUIT DEVICES, MEMORY DEVICES, AND METHODS OF FABRICATING THE SAME - A vertical type integrated circuit device includes a substrate and a pillar vertically protruding from the substrate. The pillar includes a lower impurity region and an upper impurity region therein and a vertical channel region therebetween. A portion of the pillar including the lower impurity region therein includes a mesa laterally extending therefrom. The device further includes a first conductive line extending on a first sidewall of the pillar and electrically contacting the lower impurity region, and a second conductive line extending on a second sidewall of the pillar adjacent the vertical channel region. The second conductive line extends in a direction perpendicular to the first conductive line and is spaced apart from the mesa. Related devices and methods of fabrication are also discussed. | 04-28-2011 |
| Patent application number | Description | Published |
|---|
| 20080197393 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES INCLUDING GATE PATTERNS HAVING STEP DIFFERENCE THEREBETWEEN AND A CONNECTION LINE DISPOSED BETWEEN THE GATE PATTERNS AND METHODS OF FABRICATING THE SAME - Provided are semiconductor integrated circuit (IC) devices including gate patterns having a step difference therebetween and a connection line interposed between the gate patterns. The semiconductor IC device includes a semiconductor substrate including a peripheral active region, a cell active region, and a device isolation layer. Cell gate patterns are disposed on the cell active region and the device isolation layer. A peripheral gate pattern is disposed on the peripheral active region. A cell electrical node is disposed on the cell active region adjacent to the cell gate patterns. Peripheral electrical nodes are disposed on the peripheral active region adjacent to the peripheral gate pattern. Connection lines are disposed on the cell gate patterns disposed on the device isolation layer. The connection lines are connected between the cell gate patterns and the peripheral gate pattern. | 08-21-2008 |
| 20080277795 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES HAVING UPPER PATTERN ALIGNED WITH LOWER PATTERN MOLDED BY SEMICONDUCTOR SUBSTRATE AND METHODS OF FORMING THE SAME - Provided are semiconductor integrated circuit (IC) devices having an upper pattern aligned with a lower pattern molded by a semiconductor substrate and methods of forming the same. In the semiconductor IC devices, the lower pattern contacts the upper pattern using an active region and/or an isolation layer. The methods include preparing a semiconductor substrate having an active region. A lower pattern is formed on the active region. The lower pattern is surrounded by the active region and protrudes from a top surface of the active region. An upper pattern is disposed on the lower pattern. The upper pattern contacts the lower pattern. | 11-13-2008 |
| 20080283957 | Method of Fabricating Semiconductor Device Having Self-Aligned Contact Plug and Related Device - Methods of fabricating a semiconductor device having a self-aligned contact plug are provided. Methods include forming a lower insulating layer on a semiconductor substrate, forming a plurality of interconnection patterns parallel to each other on the lower insulating layer; forming an upper insulating layer that is configured to fill between the interconnection patterns, and forming a plurality of first mask patterns crossing the plurality of interconnection patterns, ones of the plurality of first mask patterns parallel to each other on the semiconductor substrate having the upper insulating layer. Methods may include forming a second mask pattern that is self-aligned to the plurality of first mask patterns and that is between ones of the plurality of first mask patterns, etching the upper insulating layer and the lower insulating layer using the first and second mask patterns and the plurality of interconnection patterns as etch masks to form a plurality of contact holes exposing the semiconductor substrate, and forming a plurality of contact plugs in respective ones of the plurality of contact holes. Semiconductor devices are also provided. | 11-20-2008 |
| 20080284029 | Contact structures and semiconductor devices including the same and methods of forming the same - Methods of forming a contact structure in a semiconductor device include providing a semiconductor substrate including active regions and word lines crossing the active regions. A first interlayer dielectric layer is formed on the semiconductor substrate. Direct contact plugs are formed extending through the first interlayer dielectric layer to contact selected ones of the active regions. Bit line structures are formed on the first interlayer dielectric layer and crossing the word lines that are coupled to the selected ones of the active regions by the direct contact plugs. A second interlayer dielectric layer is formed on the semiconductor substrate including the bit line structures. Barrier patterns are formed extending in parallel with bit line structures and into the second interlayer dielectric layer. Mask patterns are formed overlying an entirety of top surfaces of the direct contact plugs on the second interlayer dielectric layer and the bit line structures. The second and first interlayer dielectric layers are etched using the mask patterns, the barrier patterns and the bit line structures as an etching mask to form buried contact holes and buried contact plugs are formed in the buried contact holes. | 11-20-2008 |
| 20100193966 | Contact Structures and Semiconductor Devices Including the Same - Methods of forming a contact structure in a semiconductor device include providing a semiconductor substrate including active regions and word lines crossing the active regions. A first interlayer dielectric layer is formed on the semiconductor substrate. Direct contact plugs are formed extending through the first interlayer dielectric layer to contact selected ones of the active regions. Bit line structures are formed on the first interlayer dielectric layer and crossing the word lines that are coupled to the selected ones of the active regions by the direct contact plugs. A second interlayer dielectric layer is formed on the semiconductor substrate including the bit line structures. Barrier patterns are formed extending in parallel with bit line structures and into the second interlayer dielectric layer. Mask patterns are formed overlying an entirety of top surfaces of the direct contact plugs on the second interlayer dielectric layer and the bit line structures. The second and first interlayer dielectric layers are is etched using the mask patterns, the barrier patterns and the bit line structures as an etching mask to form buried contact holes and buried contact plugs are formed in the buried contact holes. | 08-05-2010 |
