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 |
20120001267 | ELECTRODE STRUCTURE, METHOD OF FABRICATING THE SAME, AND SEMICONDUCTOR DEVICE INCLUDING THE ELECTRODE STRUCTURE - An electrode structure is disclosed. The electrode structure includes a first polysilicon layer doped with resistance adjustment impurities; a second polysilicon layer for adjusting grains, formed in the first polysilicon layer and doped with grain adjustment impurities; an ohmic metal layer formed on the first and second polysilicon layers; a barrier metal layer formed on the ohmic metal layer; and a metal layer formed on the barrier metal layer. | 01-05-2012 |
20130149833 | Methods of Manufacturing Semiconductor Devices - A method of manufacturing a semiconductor device, the method including: preparing a semiconductor substrate including a mold layer and a support layer disposed on the mold layer; forming multiple holes that pass through the mold layer and the support layer; forming multiple bottom electrodes in the holes; exposing at least a portion of the bottom electrodes by removing at least a portion of the mold layer; removing a portion of the bottom electrodes from an exposed surface of the bottom electrodes; and sequentially forming a dielectric layer and a top electrode layer on the bottom electrodes. | 06-13-2013 |
20130260559 | METHODS FOR FORMING FINE PATTERNS OF A SEMICONDUCTOR DEVICE - Methods of forming fine patterns are provided. The methods may include forming first hard mask patterns extending in a first direction on a lower layer, forming second hard mask patterns filling gap regions between the first hard mask patterns, forming first mask patterns extending in a second direction perpendicular to the first direction on the first and second hard mask patterns, etching the first hard mask patterns using the first mask patterns as etch masks to form first openings, forming second mask patterns filling the first openings and extending in the second direction, and etching the second hard mask patterns using the second mask patterns as etch masks to form second openings spaced apart from the first openings in a diagonal direction with respect to the first direction. | 10-03-2013 |
20130302959 | Semiconductor Device With Vertical Channel Transistor And Method Of Fabricating The Same - A semiconductor device with vertical channel transistors and a method of fabricating the same are provided. A method of fabricating the semiconductor device includes patterning a substrate to form a trench that defines an active region, forming a sacrificial pattern in a lower region of the trench, forming a spacer on an upper sidewall of the trench, recessing a top surface of the sacrificial pattern to form a window exposing a sidewall of the active region between the spacer and the sacrificial pattern, doping a sidewall of the trench through the window to form a doped region in the active region, and forming a wiring in the trench to be connected to the doped region. | 11-14-2013 |
20140030867 | METHODS OF FABRICATING A SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device includes forming an etch-target layer on a substrate having an alignment key, forming a transparent first pattern on the etch-target layer to face the alignment key, forming an opaque second pattern on the etch-target layer to be adjacent to the first pattern, and etching the etch-target layer using the first pattern and the second pattern as an etch mask. | 01-30-2014 |
20140110824 | SEMICONDUCTOR DEVICES HAVING HYBRID CAPACITORS AND METHODS FOR FABRICATING THE SAME - A semiconductor device includes a plurality of capacitors disposed on a substrate and a support pattern supporting upper portions and lower portions of the capacitors. Each of the capacitors includes a lower electrode, an upper electrode, and a dielectric layer between the lower and upper electrodes. The lower electrode includes a first electrode portion electrically connected to the substrate and having a solid shape and a second electrode portion stacked on the first electrode portion and having a shape comprising an opening therein. The support pattern includes an upper pattern contacting sidewalls of top end portions of the lower electrodes and a lower pattern vertically spaced apart from the upper pattern. The lower pattern contacts sidewalls under the top end portions of the lower electrodes. | 04-24-2014 |
20150236084 | SEMICONDUCTOR DEVICES HAVING HYBRID CAPACITORS AND METHODS FOR FABRICATING THE SAME - A semiconductor device includes a plurality of capacitors disposed on a substrate and a support pattern supporting upper portions and lower portions of the capacitors. Each of the capacitors includes a lower electrode, an upper electrode, and a dielectric layer between the lower and upper electrodes. The lower electrode includes a first electrode portion electrically connected to the substrate and having a solid shape and a second electrode portion stacked on the first electrode portion and having a shape comprising an opening therein. The support pattern includes an upper pattern contacting sidewalls of top end portions of the lower electrodes and a lower pattern vertically spaced apart from the upper pattern. The lower pattern contacts sidewalls under the top end portions of the lower electrodes. | 08-20-2015 |