Class / Patent application number | Description | Number of patent applications / Date published |
438636000 | Including use of antireflective layer | 6 |
20080200024 | Semiconductor device and method for fabricating the same - A method for fabricating a semiconductor device includes forming an interlayer insulating film over a semiconductor substrate. The interlayer insulating film is selectively etched to form a hole defining a storage node region. A lower electrode is formed in the hole. A support layer is formed over the lower electrode. The support layer fills an upper part of the hole and exposes the interlayer insulating film. A dip-out process is performed to remove the interlayer insulating film. The supporting layer is removed to expose the lower electrode. A dielectric film is formed over the semiconductor substrate including the lower electrode. A plate electrode is formed over the semiconductor substrate to fill the dielectric film and the lower electrode. | 08-21-2008 |
20090163021 | Method of Fabricating Semiconductor Device - Provided is a method of fabricating a semiconductor device with a dual damascene pattern. According to the method, a diffusion barrier layer, dielectric, a capping layer, and an organic bottom anti-reflection coating (BARC) are sequentially formed on a substrate where a metal interconnection is formed. A photoresist pattern on the organic BARC is formed and the organic BARC, the capping layer, and the dielectric are selectively etched to form a trench using the photoresist pattern as a mask. The photoresist pattern and the organic BARC are removed, and a byproduct capping mask is formed by reacting the capping layer with a reaction gas to form a byproduct. A portion of the trench is filled with the byproduct. Then, a via hole is formed in the trench using the byproduct capping mask as a mask, and the byproduct capping mask, the diffusion barrier layer, and the capping layer are removed. | 06-25-2009 |
20120129337 | DUAL DAMASCENE PROCESS - A dual damascene process is disclosed. The process includes the steps of: forming a dielectric layer on a substrate; forming a first patterned mask on the dielectric layer, wherein the first patterned mask comprises an opening; forming a material layer on the dielectric layer and covering the first patterned mask; forming a second patterned mask on the dielectric layer, wherein the second patterned mask comprises a first aperture; forming a second aperture in the second patterned mask, wherein the second aperture and the first aperture comprise a gap therebetween; and utilizing the second patterned mask as etching mask for partially removing the material layer and the dielectric layer through the first aperture and the second aperture. | 05-24-2012 |
20120302056 | PATTERN FORMING METHOD - A pattern forming method is disclosed. The method includes the steps of: forming a dielectric layer on a substrate; forming a first patterned mask on the dielectric layer, wherein the first patterned mask comprises an opening; forming a material layer on the dielectric layer and covering the first patterned mask; forming a second patterned mask on the material layer, wherein the second patterned mask comprises a first aperture; forming a second aperture in the second patterned mask after forming the first aperture, wherein the second aperture and the first aperture comprise a gap therebetween and overlap the opening; and utilizing the second patterned mask as an etching mask for partially removing the material layer and the dielectric layer through the first aperture and the second aperture. | 11-29-2012 |
20130029484 | MAINTAINING MASK INTEGRITY TO FORM OPENINGS IN WAFERS - One or more openings in an organic mask layer deposited on a first insulating layer over a substrate are formed. One or more openings in the first insulating layer are formed through the openings in the organic mask using a first iodine containing gas. An antireflective layer can be deposited on the organic mask layer. One or more openings in the antireflective layer are formed down to the organic mask layer using a second iodine containing gas. The first insulating layer can be deposited on a second insulating layer over the substrate. One or more openings in the second insulating layer can be formed using a third iodine containing gas. | 01-31-2013 |
20140363969 | DOUBLE SELF ALIGNED VIA PATTERNING - A method including forming a penta-layer hardmask above a substrate, the penta-layer hardmask comprising a first hardmask layer above a second hardmask layer; forming a trench pattern in the first hardmask layer; transferring a first via bar pattern from a first photo-resist layer above the penta-layer hardmask into the second hardmask layer resulting in a first via pattern, the first via pattern in the second hardmask layer overlapping the trench pattern and being self-aligned on two sides by the trench pattern in the first hardmask layer; and transferring the first via pattern from the second hardmask layer into the substrate resulting in a self-aligned via opening, the self-aligned via opening being self-aligned on all sides by the first via pattern in the second hardmask layer. | 12-11-2014 |