Patent application number | Description | Published |
20080220375 | Methods of reworking a semiconductor substrate and methods of forming a pattern in a semiconductor device - In a method of reworking a substrate, an organic anti-reflection coating (ARC) layer is formed on the substrate having an amorphous carbon pattern. A photoresist pattern is formed on the organic ARC layer. The photoresist pattern is entirely exposed when the photoresist pattern has a selected level of defects, and then the photoresist pattern is removed by a developing process. The substrate may be reworked without damaging the organic ARC layer, and the amorphous carbon pattern may include an alignment key and/or an overlay key. | 09-11-2008 |
20080264566 | Apparatus and method for removing a photoresist structure from a substrate - In an apparatus and method for removing a photoresist structure from a substrate, a chamber for receiving the substrate includes a showerhead for uniformly distributing a mixture of water vapor and ozone gas onto the substrate. The showerhead includes a first space having walls and configured to receive the water vapor, and a second space connected to the first space so that the water vapor is supplied to and partially condensed into liquid water on one or more walls of the first space. Ozone gas and water vapor without liquid water may be supplied to the second space to form the mixture therein. The showerhead may be heated to vaporize the liquid water on a given surface of the first space. | 10-30-2008 |
20100093165 | Method of fabricating integrated circuit semiconductor device having gate metal silicide layer - Provided is a method of fabricating an integrated circuit semiconductor device. The method may include forming a plurality of gate patterns spaced apart from each other on a semiconductor substrate, the plurality of gate patterns including gate electrodes and gate capping patterns. After an interlayer insulating layer is formed to insulate the gate patterns, the interlayer insulating layer and the gate capping patterns may be planarized by etching until top surfaces of the gate electrodes are exposed. Gate metal silicide layers may be selectively formed on the gate electrodes. | 04-15-2010 |
20100173470 | Methods of forming a silicon oxide layer and methods of forming an isolation layer - In a method of forming a silicon oxide layer, a spin-on-glass (SOG) layer may be formed on an object including a recess using an SOG composition. The SOG layer may be pre-baked and then cured by contacting with at least one material selected from the group consisting of water, a basic material and an oxidant, under a pressure of from about 1.5 atm to about 100 atm. The cured SOG layer may be baked. | 07-08-2010 |
20110171882 | CHEMICAL-MECHANICAL POLISHING APPARATUS FOR MANUFACTURING SEMICONDUCTOR DEVICES - A chemical-mechanical polishing (CMP) apparatus for manufacturing a semiconductor device. The apparatus includes: a spin chuck for supporting and rotating a semiconductor wafer; a polisher comprising a polishing pad for planarizing a surface of the semiconductor wafer, the polisher moving along the surface of the semiconductor wafer by a polishing arm; and a polisher supporting device for supporting the polisher and maintaining the polisher in a horizontal state, while polishing an edge part of the surface of the semiconductor wafer, in order to improve polishing uniformity of a center part and the edge part of the semiconductor wafer. Accordingly, polishing uniformity of the center part and edge part of the semiconductor wafer may be improved, and a height of the polisher supporting device may be optimized according to a polishing degree. Also, the polisher may be easily supported, wear and tear of the support head may be minimized, and the support head may function as a conditioner. | 07-14-2011 |
20110284968 | SEMICONDUCTOR DEVICES INCLUDING GATE STRUCTURE AND METHOD OF FABRICATING THE SAME - A semiconductor device includes a semiconductor substrate having a top surface and a recessed portion including at least two oblique side surfaces and a first bottom surface therebetween, a gate insulating layer formed on the recessed portion, a gate electrode formed on the gate insulating layer, a channel region below the gate electrode in the semiconductor substrate, and gate spacers formed on side surfaces of the gate electrode, wherein both the bottom surface and the side surfaces of the recessed portion include flat surfaces. A method of manufacturing a semiconductor device comprising the steps of forming a recess portion including at least two oblique side surfaces and a bottom surface therebetween in a semiconductor substrate, forming a gate insulating layer formed on the recessed portion, forming a gate electrode formed on the gate insulating layer, forming a channel region below the gate electrode in the semiconductor substrate, and forming gate spacers formed on side surfaces of the gate electrode. | 11-24-2011 |
20120025283 | MEMORY DEVICE - In a semiconductor device having an enlarged contact area between a contact structure and a substrate, the substrate may include a first region on which a conductive structure is arranged and a second region defining the first region. The first region may include a multi-faced polyhedral recess of which at least one of the sidewalls is slanted with respect to a surface of the substrate. An insulation layer may be formed on the substrate to a thickness that is sufficient to cover the conductive structure. The insulation layer has a contact hole that may be communicated with the recess. The active region of the substrate is exposed through the contact hole. A conductive pattern is positioned in the recess and the contact hole. Accordingly, the contact resistance at the active region of the substrate may be kept to a relatively low value even though the gap distances and line width of pattern lines are reduced. | 02-02-2012 |
20130341710 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device includes forming a first preliminary gate barrier layer and a first preliminary gate electrode recessed to have a first depth from the surface of the substrate within a gate trench, removing an upper portion of the first preliminary gate electrode by means of a first wet etching process using a first etchant to form a second preliminary gate electrode recessed to have a second depth greater than the first depth, and removing an upper portion of the first preliminary gate barrier layer and an upper portion of the second preliminary gate electrode by means of a second wet etching process using a second etchant to form a gate electrode and a gate barrier layer recessed to a third depth greater than the second depth. | 12-26-2013 |