Patent application number | Description | Published |
20120225545 | Method of Fabricating Semiconductor Device - The present invention provides a method of fabricating a semiconductor device. A substrate is provided. A first region and a second region are defined on the substrate. A first interfacial layer, a sacrifice layer and a sacrifice gate layer are disposed on the first region. The sacrifice layer and the sacrifice gate layer are disposed on the second region of the substrate. Next, a first etching step is performed to remove the sacrifice gate layer in the first region and the second region. Then, a second etching step is performed to remove the sacrifice layer in the first region and the second region to expose the substrate of the second region. Lastly, a second interfacial layer is formed on the substrate of the second region. | 09-06-2012 |
20130193577 | STRUCTURE OF ELECTRICAL CONTACT AND FABRICATION METHOD THEREOF - A method of fabricating an electrical contact comprises the following steps. A substrate having at least a silicon region is provided. At least an insulation layer is formed on the substrate, wherein the insulation layer comprises at least a contact hole which exposes the silicon region. A metal layer is formed on sidewalls and bottom of the contact hole. An annealing process is performed to form a first metal silicide layer in the silicon region nearby the bottom of the contact hole. A conductive layer covering the metal layer and filling up the contact hole is then formed, wherein the first metal silicide layer is transformed into a second metal silicide layer when the conductive layer is formed. | 08-01-2013 |
20140017867 | SEMICONDUCTOR DEVICE HAVING METAL GATE AND MANUFACTURING METHOD THEREOF - A method of manufacturing a semiconductor device having metal gate includes providing a substrate having at least a dummy gate, a sacrificial layer covering sidewalls of the dummy gate and a dielectric layer exposing a top of the dummy gate formed thereon, forming a sacrificial layer covering sidewalls of the dummy gate on the substrate, forming a dielectric layer exposing a top of the dummy gate on the substrate, performing a first etching process to remove a portion of the sacrificial layer surrounding the top of the dummy gate to form at least a first recess, and performing a second etching process to remove the dummy gate to form a second recess. The first recess and the second recess construct a T-shaped gate trench. | 01-16-2014 |
20140131804 | SEMICONDUCTOR STRUCTURE - The present invention provides a semiconductor structure, comprising at least two gate electrodes disposed on a substrate, wherein each gate electrode is mushroom-shaped and respectively has a salicide region on a top of the gate electrode, wherein the width of the salicide region is larger than the width of the gate electrode. A recess is disposed between each gate electrode, wherein the recess has a recess extension disposed under the salicide region. A spacer fills the extension of the recess, wherein the profile of each gate electrode is a tapered surface, and a contact etching stop layer (CESL) covers the gate electrodes. | 05-15-2014 |
20150014808 | SEMICONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - A fabrication method for a semiconductor structure at least includes the following steps. First, a pattern mask with a predetermined layout pattern is formed on a substrate. The layout pattern is then transferred to the underneath substrate so as to form at least a fin-shaped structure in the substrate. Subsequently, a shallow trench isolation structure is formed around the fin-shaped structure. Afterwards, a steam oxidation process is carried out to oxidize the fin-shaped structure protruding from the shallow trench isolation and to form an oxide layer on its surface. Finally, the oxide layer is removed completely. | 01-15-2015 |
20150064929 | METHOD OF GAP FILLING - A method of gap filling includes providing a substrate having a plurality of gaps formed therein. Then, an in-situ steam generation oxidation is performed to form an oxide liner on the substrate. The oxide liner is formed to cover surfaces of the gaps. Subsequently, a high aspect ratio process is performed to form an oxide protecting layer on the oxide liner. After forming the oxide protecting layer, a flowable chemical vapor deposition is performed to form an oxide filling on the oxide protecting layer. More important, the gaps are filled up with the oxide filling layer. | 03-05-2015 |
20150069196 | MOUNTING BRACKET FOR SLIDE ASSEMBLY - A mounting bracket for a slide assembly includes a side wall, an end wall, at least one installation member, a stop, and a resilient member. The end wall is substantially perpendicular to the side wall. The at least one installation member is connected to the end wall. The stop is pivotably connected to the side wall and includes a first portion and a middle portion which is connected to the first portion. The middle portion has a first end portion. The resilient member provides a force to the stop to position the first end portion of the stop to be located corresponding to the end wall. | 03-12-2015 |
20150140819 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A substrate having trenches with different sizes is provided. A first oxide layer is formed to entirely cover the substrate. A prevention layer is formed on the first oxide layer. A first filling layer is formed on the prevention layer and fills the trenches until the first filling layer is higher than the substrate. A first polishing process is performed to polish the first filling layer until exposing the prevention layer. A second polishing process is performed to polish the first filling layer, the prevention layer and the first oxide layer until the substrate is exposed. | 05-21-2015 |