Patent application number | Description | Published |
20090014833 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - An exemplary semiconductor device includes a semiconductor substrate on which lower electrodes are formed. The lower electrodes are arranged in an array including a rows extending substantially parallel to one another along a first direction. A stripe-shaped capacitor support pad is interposed between a pair of adjacent ones of the rows and is connected to lower electrodes in the pair of adjacent ones of the rows. The semiconductor device may include plurality of capacitors each including a one of the lower electrodes, a dielectric film, and an upper electrode. An upper end of the capacitor support pad is below the upper ends of the lower electrodes. A portion of the stripe-shaped capacitor support pad is interposed between adjacent ones of lower electrodes included within at least one of the rows and is connected to the adjacent ones of lower electrodes included within the at least one of the rows. | 01-15-2009 |
20090162989 | METHODS OF MANUFACTURING A SEMICONDUCTOR DEVICE USING A LAYER SUSPENDED ACROSS A TRENCH - In methods of forming a trench, first patterns separated from each other by a first width and second patterns separated from each other by a second width are formed on a substrate. The second width is wider than the first width. The substrate is etched using the first patterns and the second patterns to form a first trench having a first depth and a preliminary second trench having a second depth. A sacrificial layer is formed to fill up a space between the first patterns. The substrate is etched using the sacrificial layer to form a second trench having a third depth deeper than the second depth. | 06-25-2009 |
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 |
20110104889 | 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. | 05-05-2011 |
Patent application number | Description | Published |
20090079012 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A semiconductor device and a method of fabricating the same are provided. The semiconductor device includes a plurality of active regions which are defined in a semiconductor substrate, a plurality of gate lines which are formed as zigzag lines, extend across the active regions, are symmetrically arranged, and define a plurality of first regions and a plurality of second regions therebetween, and wherein the first regions being narrower than the second regions. The semiconductor device further includes an insulation layer which defines a plurality of contact regions by filling empty spaces in the first regions between the gate lines and, extending from the first regions, and surrounding sidewalls of portions of the gate lines in the second regions, and wherein the contact regions partially exposing the active regions and a plurality of contacts which respectively fill the contact regions. | 03-26-2009 |
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 |
20100099248 | Methods of fabricating a semiconductor device - Methods of fabricating a semiconductor device are provided, the methods include forming a first dielectric layer, a data storage layer, and a second dielectric layer, which are sequentially stacked, on a semiconductor substrate. A mask having a first opening exposing a first region of the second dielectric layer is formed on the second dielectric layer. A gate electrode filling at least a portion of the first opening is formed. A second opening exposing a second region of the second dielectric layer is formed by etching the mask such that the second region is spaced apart from the first region. A second dielectric pattern and a data storage pattern are formed by sequentially etching the exposed second region of the second dielectric layer and the data storage layer. The second dielectric pattern is formed to have a greater width than a lower surface of the gate electrode. | 04-22-2010 |
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 |
20110151633 | METHODS OF FORMING A CONDUCTIVE LAYER STRUCTURE AND METHODS OF MANUFACTURING A RECESSED CHANNEL TRANSISTOR INCLUDING THE SAME - In a method of forming a conductive layer structure and a method of manufacturing a recess channel transistor, a first insulating layer and a first conductive layer are sequentially formed on a substrate having a first region a second region and the substrate is exposed in a recess-forming area in the first region. A recess is formed in the recess-forming-area by etching the exposed region of the substrate. A second insulating layer is conformally formed on a sidewall and a bottom of the recess. A second conductive layer pattern is formed on the second insulating layer to fill up a portion of the recess. A spacer is formed on the second conductive layer pattern and on the second insulating layer on the sidewall of the recess. A third conductive layer pattern is formed on the second conductive layer pattern and the spacer to fill up the recess. | 06-23-2011 |
20120040508 | Method of Forming Semiconductor Device Having Self-Aligned Plug - A conductive pattern on a substrate is formed. An insulating layer having an opening exposing the conductive pattern is formed. A bottom electrode is formed on the conductive pattern and a first sidewall of the opening. A spacer is formed on the bottom electrode and a second sidewall of the opening. The spacer and the bottom electrode are formed to be lower than a top surface of the insulating layer. A data storage plug is formed on the bottom electrode and the spacer. The data storage plug has a first sidewall aligned with a sidewall of the bottom electrode and a second sidewall aligned with a sidewall of the spacer. A bit line is formed on the data storage plug. | 02-16-2012 |
20120129349 | METHOD OF FORMING PATTERNS FOR SEMICONDUCTOR DEVICE - A method of forming patterns for a semiconductor device. The method includes: forming a first hard mask layer on a layer which is to be etched; forming a second hard mask layer on the first hard mask layer, wherein the second hard mask layer includes a first portion and a second portion formed underneath the first portion, wherein the first portion and second portion are composed of the same material; etching the first portion to form first patterns; forming spacers covering sidewalls of the first patterns; etching the second portion using the spacers as etch masks to form second patterns; etching the first hard mask layer and the spacers using the second patterns disposed underneath the spacers as etch masks to form third patterns; and etching the layer to be etched, using the third patterns. | 05-24-2012 |
20120135579 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method uses a line pattern to form a semiconductor device including asymmetrical contact arrays. The method includes forming a plurality of parallel first conductive line layers extending in a first direction on a semiconductor substrate. In this method, the semiconductor substrate may have active regions forming an oblique angle with the first direction. The method may further include forming a first mask layer and a second mask layer and using the first mask layer and the second mask layer to form a trench comprising a line area and a contact area by etching the first conductive line layers using the first mask layer and the second mask layer. The method further includes forming a gap filling layer filling the line area of the trench and forming a spacer of sidewalls of the contact area and forming a second conductive line layer electrically connected to the active region. | 05-31-2012 |
20120135601 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device including a plurality of hole patterns is disclosed. The method includes: forming a plurality of first line patterns and a plurality of first space patterns extending in a first direction; forming a plurality of second line patterns and a plurality of second space patterns extending in a second direction, on the plurality of first line patterns and the plurality of first space patterns; forming a plurality of first hole patterns where the plurality of first space patterns and the plurality of second space patterns cross each other; and forming a plurality of second hole patterns where the plurality of first line patterns and the plurality of second line patterns cross each other. | 05-31-2012 |
20130009226 | DRAM DEVICES AND METHODS OF MANUFACTURING THE SAME - A DRAM device includes a substrate including an active region having an island shape and a buried gate pattern. A mask pattern is over an upper surface portion of the substrate between portions of the buried gate pattern. A capping insulating layer fills a gap between portions of the mask pattern. A first pad contact penetrates the capping insulating layer and the mask pattern, and contacts a first portion of the substrate in the active region. Second pad contacts are under the capping insulating layer, and contact a second portion of the substrate in the active region positioned at both sides of the first pad contact. A spacer is between the first and second pad contacts to insulate the first and second pad contacts. A bit line configured to electrically connect with the first pad contact, and a capacitor configured to electrically connect with the second pad contacts, are provided. | 01-10-2013 |
20130011989 | METHODS OF MANUFACTURING A DRAM DEVICE - In methods of manufacturing a DRAM device, a buried-type gate is formed in a substrate. A capping insulating layer pattern is formed on the buried-type gate. A conductive layer pattern filling up a gap between portions of the capping insulating layer pattern, and an insulating interlayer covering the conductive layer pattern and the capping insulating layer pattern are formed. The insulating interlayer, the conductive layer pattern, the capping insulating layer pattern and an upper portion of the substrate are etched to form an opening, and a first pad electrode making contact with a first pad region. A spacer is formed on a sidewall of the opening corresponding to a second pad region. A second pad electrode is formed in the opening. A bit line electrically connected with the second pad electrode and a capacitor electrically connected with the first pad electrode are formed. | 01-10-2013 |
20130302966 | Method of Forming Semiconductor Device Having Self-Aligned Plug - A conductive pattern on a substrate is formed. An insulating layer having an opening exposing the conductive pattern is formed. A bottom electrode is formed on the conductive pattern and a first sidewall of the opening. A spacer is formed on the bottom electrode and a second sidewall of the opening. The spacer and the bottom electrode are formed to be lower than a top surface of the insulating layer. A data storage plug is formed on the bottom electrode and the spacer. The data storage plug has a first sidewall aligned with a sidewall of the bottom electrode and a second sidewall aligned with a sidewall of the spacer. A bit line is formed on the data storage plug. | 11-14-2013 |