| Patent application number | Description | Published |
|---|
| 20090020817 | Semiconductor device having a plurality of stacked transistors and method of fabricating the same - A semiconductor device according to example embodiments may have a plurality of stacked transistors. The semiconductor device may have a lower insulating layer formed on a semiconductor substrate and an upper channel body pattern formed on the lower insulating layer. A source region and a drain region may be formed within the upper channel body pattern, and a non-metal transfer gate electrode may be disposed on the upper channel body pattern between the source and drain regions. The non-metal transfer gate electrode, the upper channel body pattern, and the lower insulating layer may be covered by an intermediate insulating layer. A metal word line may be disposed within the intermediate insulating layer to contact at least an upper surface of the non-metal transfer gate electrode. An insulating spacer may be disposed on a sidewall of the metal word line. A metal node plug may be disposed within the intermediate insulating layer and the lower insulating layer to contact the source region of the upper channel body pattern. Example embodiments also relate to a method of fabricating the above semiconductor device. | 01-22-2009 |
| 20090185407 | Semiconductor Memory Device Having Transistors of Stacked Structure - Provided is a semiconductor device having transistors of stacked structure. The semiconductor memory device having transistors includes a memory cell array block which includes a plurality of word lines and a plurality of memory cells which each includes at least one first transistor connected between the plurality of word lines, and a word line decoder which includes a plurality of drivers which drive the plurality of word lines, respectively, wherein a plurality of word lines are disposed on a first layer, and a plurality of drivers are disposed on at least two second layers. | 07-23-2009 |
| 20090294863 | Semiconductor Memory Device Having Three Dimensional Structure - A semiconductor device and method for arranging and manufacturing the same are disclosed. The semiconductor device includes a plurality of inverters including at least one first pull-up transistor and first pull-down transistor and inverting and outputting an input signal, respectively; and a plurality of NAND gates including at least two second pull-up transistor and second pull-down transistor and generating an output signal having a high level if at least one of at least two input signals has a low level, respectively, wherein the at least one first pull-up transistor and first pull-down transistor and the at least two second pull-up transistor and second pull-down transistor are stacked and arranged on at least two layers. | 12-03-2009 |
| 20100006942 | Interconnection structure and electronic device employing the same - An interconnection structure and an electronic device employing the same are provided. The interconnection structure for an integrated structure includes first and second contact plugs disposed on a substrate, and a connection pattern interposed between sidewalls of the first and second contact plugs and configured to electrically connect the first and second contact plugs. | 01-14-2010 |
| 20100193871 | Stacked load-less static random access memory device - In a stacked load-less static random access memory (SRAM) device in which a pair of transmission transistors is stacked on a pair of driving transistors, the stacked load-less SRAM device includes first and second transistors arranged in first and second active regions separately on a semiconductor substrate and third and fourth transistors arranged on first and second semiconductor layers over the first and second transistors. A first drain region of the first transistor, a third drain region of the third transistor, and a second gate of the second transistor are electrically connected through a first contact node. A second drain region of the second transistor, a fourth drain region of the fourth transistor, and a first gate of the first transistor are electrically connected through a second contact node. | 08-05-2010 |
| 20100224942 | Semiconductor device and method of fabricating the same - Provided are a semiconductor device and a method of fabricating the same. According to the semiconductor device, a silicide layer is formed on at least a part of both sidewalls of a gate pattern on a device isolation layer, thereby reducing resistance of the gate pattern. This makes an operation speed of the device rapid. According to the method of the semiconductor device, a sidewall spacer pattern is formed on at least a part of both sidewalls of the gate pattern in following salicide process by entirely or partially removing remaining portions of the sidewall spacer except for portions which are used as an ion implantation mask to form source/drain regions. This can reduce resistance of the gate pattern, thereby fabricating a semiconductor device with a rapid operation speed. | 09-09-2010 |
| 20110014754 | Semiconductor device having a plurality of stacked transistors and method of fabricating the same - A semiconductor device according to example embodiments may have a plurality of stacked transistors. The semiconductor device may have a lower insulating layer formed on a semiconductor substrate and an upper channel body pattern formed on the lower insulating layer. A source region and a drain region may be formed within the upper channel body pattern, and a non-metal transfer gate electrode may be disposed on the upper channel body pattern between the source and drain regions. The non-metal transfer gate electrode, the upper channel body pattern, and the lower insulating layer may be covered by an intermediate insulating layer. A metal word line may be disposed within the intermediate insulating layer to contact at least an upper surface of the non-metal transfer gate electrode. An insulating spacer may be disposed on a sidewall of the metal word line. A metal node plug may be disposed within the intermediate insulating layer and the lower insulating layer to contact the source region of the upper channel body pattern. Example embodiments also relate to a method of fabricating the above semiconductor device. | 01-20-2011 |
