Patent application number | Description | Published |
20090045456 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A method of fabricating a semiconductor device is provided. The method includes forming a gate structure on a substrate. The gate structure includes a patterned gate dielectric layer, a patterned gate conductor layer, a cap layer and a spacer. Next, a first and a second recesses are formed in the substrate on the two sides of the gate structure. Thereafter, a protection layer is formed on the bottom surfaces of the first and the second recesses, and then a etching process is performed to laterally enlarge first and the second recesses towards the direction of the gate structure. Thereafter, a material layer is respectively formed in the first recess and the second recess. Afterward, two source/drain contact regions are respectively formed in the material layers of the first recess and the second recess. | 02-19-2009 |
20090081817 | PATTERNING METHOD - A patterning method is provided. In the patterning method, a film is formed on a substrate and a pre-layer information is measured. Next, an etching process is performed to etch the film. The etching process includes a main etching step, an etching endpoint detection step, an extension etching step and an over etching step. An extension etching time for performing the extension etching step is set within 10 seconds based on a predetermined correlation between an extension etching time and the pre-layer information, so as to achieve a required film profile. | 03-26-2009 |
20090107954 | METHOD FOR CONTROLLING ADI-AEI CD DIFFERENCE RATIO OF OPENINGS HAVING DIFFERENT SIZES - A method for controlling ADI-AEI CD difference ratios of openings having different sizes is provided. First, a first etching step using a patterned photoresist layer as a mask is performed to form a patterned Si-containing material layer and a polymer layer on sidewalls thereof. Next, a second etching step is performed with the patterned photoresist layer, the patterned Si-containing material layer and the polymer layer as masks to at least remove an exposed portion of a etching resistive layer to form a patterned etching resistive layer. A portion of a target material layer is removed by using the patterned etching resistive layer as an etching mask to form a first and a second openings in the target material layer. The method is characterized by controlling etching parameters of the first and second etching steps to obtain predetermined ADI-AEI CD difference ratios. | 04-30-2009 |
20090145877 | METHOD FOR CONTROLLING ADI-AEI CD DIFFERENCE RATIO OF OPENINGS HAVING DIFFERENT SIZES - A method for controlling an ADI-AEI CD difference ratio of openings having different sizes is described. The openings are formed through a silicon-containing material layer, an etching resistive layer and a target material layer in turn. Before the opening etching steps, at least one of the opening patterns in the photoresist mask is altered in size through photoresist trimming or deposition of a substantially conformal polymer layer. A first etching step forming thicker polymer on the sidewall of the wider opening pattern is performed to form a patterned Si-containing material layer. A second etching step is performed to remove exposed portions of the etching resistive layer and the target material layer. At least one parameter among the parameters of the photoresist trimming or polymer layer deposition step and the etching parameters of the first etching step is controlled to obtain a predetermined ADI-AEI CD difference ratio. | 06-11-2009 |
20100018944 | PATTERNING METHOD - A patterning method is provided. A patterned photoresist layer is formed on a bottom anti-reflective coating (BARC), having therein an opening exposing a portion of the BARC. The patterned photoresist layer is treated with a first plasma-generating gas including a fluorocarbon species to form a polymer layer on the surface of the PR layer and the sidewall of the opening. The patterned photoresist layer is used as a mask to etch the BARC with a second plasma-generating gas, which includes Ar and H | 01-28-2010 |
20100105205 | CLEANING SOLUTION AND SEMICONDCUTOR PROCESS USING THE SAME - A semiconductor process is provided. First, a metal layer, a dielectric layer and a patterned hard mask layer are sequentially formed on a substrate. Thereafter, a portion of the dielectric layer is removed to form an opening exposing the metal layer. Afterwards, a cleaning solution is used to clean the opening. The cleaning solution includes a triazole compound with a content of 0.00275 to 3 wt %, sulfuric acid with a content of 1 to 10 wt %, hydrofluoric acid with a content of 1 to 200 ppm and water. | 04-29-2010 |
20110244398 | Patterning method - A patterning method is provided. First, a first mask layer, a second mask layer and a patterned photoresist layer are sequentially formed on a target layer. Thereafter, the second mask layer is etched by using the patterned photoresist layer as a mask, so as to form a patterned second mask layer. Afterwards, a trimming process is performed to the patterned second mask layer. Further, the first mask layer is etched by using the trimmed patterned second mask layer as a mask, so as to form a patterned first mask layer. The patterned photoresist layer is then removed. Next, the target layer is etched by using the patterned first mask layer as a mask. | 10-06-2011 |
20110294075 | PATTERNING METHOD - A patterning method of the present invention is described as follows. A mask layer and a patterned photoresist layer are formed on a target layer in sequence, wherein an etching rate of the mask layer is different from an etching rate of the target layer. A plurality of spacers is formed on sidewalls of the patterned photoresist layer respectively, wherein an etching rate of the spacers is different from the etching rate of the mask layer. The patterned photoresist layer is removed to form an opening between any two adjacent spacers. A portion of the mask layer is removed by using the spacers as a mask so as to form a patterned mask layer. A portion of the target layer is removed by using the patterned mask layer as a mask. | 12-01-2011 |
20120122035 | PATTERNING METHOD AND METHOD FOR FABRICATING DUAL DAMASCENE OPENING - A patterning method and a method for fabricating a dual damascene opening are described, wherein the patterning method includes following steps. An organic layer, a silicon-containing mask layer and a patterned photoresist layer are formed on a material layer in sequence. The silicon-containing mask layer is removed using the patterned photoresist layer as a mask. A reactive gas is used for conducting an etching step so as to remove the organic layer with the silicon-containing mask layer as a mask, wherein the reactive gas contains no oxygen species. The material layer is removed using the organic layer as a mask, so that an opening is formed in the material layer. The organic layer is then removed. | 05-17-2012 |
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 |
20120132996 | STRAINED SILICON STRUCTURE - A strained silicon substrate structure includes a first transistor and a second transistor disposed on a substrate. The first transistor includes a first gate structure and two first source/drain regions disposed at two sides of the first gate structure. A first source/drain to gate distance is between each first source/drain region and the first gate structure. The second transistor includes a second gate structure and two source/drain doped regions disposed at two side of the second gate structure. A second source/drain to gate distance is between each second source/drain region and the second gate structure. The first source/drain to gate distance is smaller than the second source/drain to gate distance. | 05-31-2012 |
20120264279 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device, wherein the method comprises steps as follows: a semiconductor structure comprising a substrate, a dummy gate structure having a dielectric layer disposed over the substrate and a silicon layer disposed over the dielectric layer, and an etching stop layer (ESL) and an inter-layer dielectric (ILD) layer both of which are sequentially disposed over the substrate and the dummy gate structure is first provided. Then, a chemical mechanical polishing (CMP) is performed to planrizing the ILD layer and expose the ESL. Subsequently, an in-situ etching process is conducted to remove portions of the ESL and the silicon layer to form an opening in the dummy gate structure. Next, metal material is filled into the opening. | 10-18-2012 |