Patent application number | Description | Published |
20090117723 | Methods of forming a conductive pattern in semiconductor devices and methods of manufacturing semiconductor devices having a conductive pattern - In a method of forming a conductive pattern in a semiconductor device, a conductive layer including a metal is formed on a substrate. A mask including carbon is provided on the conductive layer, and the conductive pattern is formed on the substrate by etching the conductive layer using the mask as an etching mask. The mask is removed from the conductive pattern by an oxygen plasma ashing process. An oxidized portion of the conductive pattern is reduced. The conductive pattern may have a desired resistance by reducing the oxidized portion to improve electrical characteristics and reliability of the semiconductor device. | 05-07-2009 |
20090184391 | Semiconductor devices having fuses and methods of forming the same - Semiconductor devices having a plurality of fuses and methods of forming the same are provided. The semiconductor device having a fuse including a substrate having a cell region and/or a fuse box region. A first insulation interlayer may be formed on the substrate. A first etch stop layer may be formed on the first insulation interlayer. A metal wiring including a barrier layer, a metal layer and/or a capping layer may be formed on the first etch stop layer of the cell region. Fuses, spaced apart from each other, may be formed on the first etch stop layer of the fuse box region. Each fuse may include the barrier layer and/or the metal layer. A second insulation interlayer having an opening exposing the fuse box region may be formed on the metal wiring and/or the first etch stop layer. The etch stop layer may allow the fuses to be formed more uniformly and decrease the probability of breaking the fuses. | 07-23-2009 |
20100112803 | Methods of Forming Integrated Circuit Devices Using Contact Hole Spacers to Improve Contact Isolation - Methods of forming integrated circuit devices include upper sidewall spacers in contact holes to provide enhanced electrical isolation to contact plugs therein while maintaining relatively low contact resistance. These methods include forming an interlayer insulating layer on a semiconductor substrate. The interlayer insulating layer includes at least a first electrically insulating layer of a first material on the semiconductor substrate and a second electrically insulating layer of a second material on the first electrically insulating layer. A contact hole is formed that extends through the interlayer insulating layer and exposes a primary surface of the semiconductor substrate. This contact hole may be formed by selectively etching the second electrically insulating layer and the first electrically insulating layer in sequence and at a faster etch rate of the first material relative to the second material. This sequential etching of the first material at a faster rate than the second material may yield a contact hole having a recessed sidewall. | 05-06-2010 |
20100237466 | SEMICONDUCTOR DEVICES - A semiconductor device includes a lower electrode, a supporting member enclosing at least an upper portion of the lower electrode, a dielectric layer on the lower electrode and the supporting member, and an upper electrode disposed on the dielectric layer. The supporting member may have a first portion that extends over an upper part of the sidewall of the lower electrode, and a second portion covering the upper surface of the lower electrode. The first portion of the supporting member protrudes above the lower electrode. | 09-23-2010 |