Patent application number | Description | Published |
20090294927 | SEMICONDUCTOR-DEVICE ISOLATION STRUCTURE AND MANUFACTURING METHOD THEREBY - A manufacturing method for a semiconductor-device isolation structure comprises providing a substrate with at least one shallow trench isolation structure, performing a salicide process that forms a recess on the surface of the shallow trench isolation structure, forming a cap film covering the substrate and filling the recess, performing an etching process to remove the cap film outside the recess, and forming a contact etch stop layer covering the substrate and filling the recess. Due to the filling recess with the cap film first, the contact etch stop layer covering the substrate and filling the recess does not have seams or voids. | 12-03-2009 |
20100213554 | GATE STRUCTURE AND METHOD FOR TRIMMING SPACERS - A gate structure includes a gate disposed on a substrate, a first spacer disposed on the substrate and surrounding the gate and a second spacer disposed on the first spacer and surrounding the gate, the second spacer is lower than the first spacer. | 08-26-2010 |
20120034780 | METHOD FOR FABRICATING A SEMICONDUCTOR DEVICE - A method for forming a semiconductor device. A substrate having thereon at least one small pattern and at least one large pattern is provided. A sacrificial layer is deposited to cover the small pattern and the large pattern. A chemical mechanical polishing is performed to planarize the sacrificial layer. The sacrificial layer is then dry etched to a thickness that is smaller than a height of the small pattern and the large pattern, thereby revealing an oxide hard mask of the small pattern and the large pattern. The oxide hard mask is then selectively removed. | 02-09-2012 |
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 |
20130005151 | METHOD FOR FORMING CONTACT HOLES - In an exemplary method for forming contact holes, a substrate overlaid with an etching stop layer and an interlayer dielectric layer in that order is firstly provided. A first etching process then is performed to form at least a first contact opening in the interlayer dielectric layer. A first carbon-containing dielectric layer subsequently is formed overlying the interlayer dielectric layer and filling into the first contact opening. After that, a first anti-reflective layer and a first patterned photo resist layer are sequentially formed in that order overlying the carbon-containing dielectric layer. Next, a second etching process is performed by using the first patterned photo resist layer as an etching mask to form at least a second contact opening in the interlayer dielectric layer. | 01-03-2013 |
20130087861 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A semiconductor device comprises a metal gate electrode, a passive device and a hard mask layer. The passive device has a poly-silicon element layer. The hard mask layer is disposed on the metal gate electrode and the passive electrode and has a first opening and a second opening substantially coplanar with each other, wherein the metal gate electrode and the poly-silicon element layer are respectively exposed via the first opening and the second opening; and there is a distance between the first opening and the metal gate electrode substantially less than the distance between the second opening and the poly-silicon element layer. | 04-11-2013 |
20130109151 | METHOD FOR FORMING VOID-FREE DIELECTRIC LAYER | 05-02-2013 |
20130200393 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure includes a substrate, a resist layer, a dielectric material, two U-shaped metal layers and two metals. The substrate has an isolation structure. The resist layer is located on the isolation structure. The dielectric material is located on the resist layer. Two U-shaped metal layers are located at the two sides of the dielectric material and on the resist layer. Two metals are respectively located on the two U-shaped metal layers. This way a semiconductor process for forming said semiconductor structure is provided. | 08-08-2013 |
20130292775 | 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. | 11-07-2013 |
20140073104 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A manufacturing method of a semiconductor device is disclosed in the present invention. First, at least one gate structure and plurality of source/drain regions on a substrate are formed, a dielectric layer is then formed on the substrate, a first contact hole and a second contact hole are formed in the dielectric layer, respectively on the gate structure and the source/drain region, and a third contact hole is formed in the dielectric layer, wherein the third contact hole overlaps the first contact hole and the second contact hole. | 03-13-2014 |
20140099760 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device, wherein the method comprises steps as follows: A dummy gate with a poly-silicon gate electrode and a passive device having a poly-silicon element layer are firstly provided. A hard mask layer is then formed on the dummy gate and the passive device. Next, a first etching process is performed to remove a portion of the hard mask layer to expose a portion of the poly-silicon element layer. Subsequently, an inner layer dielectric (ILD) is formed on the dummy gate and the poly-silicon element layer, and the ILD is flattened by using the hard mask layer as a polishing stop layer. Thereafter, a second etching process is performed to remove the poly-silicon gate electrode, and a metal gate electrode is formed on the location where the poly-silicon gate electrode was initially disposed. | 04-10-2014 |
20140151763 | SEMICONDUCTOR STRUCTURE HAVING CONTACT PLUG AND METHOD OF MAKING THE SAME - The present invention provides a semiconductor structure including a substrate, a transistor, a first ILD layer, a second ILD layer, a first contact plug, second contact plug and a third contact plug. The transistor is disposed on the substrate and includes a gate and a source/drain region. The first ILD layer is disposed on the transistor. The first contact plug is disposed in the first ILD layer and a top surface of the first contact plug is higher than a top surface of the gate. The second ILD layer is disposed on the first ILD layer. The second contact plug is disposed in the second ILD layer and electrically connected to the first contact plug. The third contact plug is disposed in the first ILD layer and the second ILD layer and electrically connected to the gate. The present invention further provides a method of making the same. | 06-05-2014 |
20140154852 | METHOD FOR FORMING SEMICONDUCTOR STRUCTURE HAVING METAL CONNECTION - The present invention provides a method for forming a semiconductor structure having a metal connect. A substrate is provided, and a transistor and a first ILD layer are formed thereon. A first contact plug is formed in the first ILD layer to electrically connect the source/drain region. A second ILD layer and a third ILD layer are formed on the first ILD layer. A first opening above the gate and a second opening above the first contact plug are formed, wherein a depth of the first contact plug is deeper than that of the second opening. Next, the first opening and the second opening are deepened. Lastly, a metal layer is filled into the first opening and the second opening to respectively form a first metal connect and a second metal connect. | 06-05-2014 |
20140241027 | Static random access memory unit cell structure and static random access memory unit cell layout structure - A static random access memory unit cell layout structure is disclosed, in which a slot contact is disposed on one active area and another one across from the one. A static random access memory unit cell structure and a method of fabricating the same are also disclosed, in which, a slot contact is disposed on drains of a pull-up transistor and a pull-down transistor, and a metal-zero interconnect is disposed on the slot contact and a gate line of another pull-up transistor. Accordingly, there is not an intersection of vertical and horizontal metal-zero interconnects, and there is no place suffering from twice etching. Leakage junction due to stitch recess can be avoided. | 08-28-2014 |
20140315365 | METHOD OF FORMING SEMICONDUCTOR DEVICE - A method of forming a semiconductor device is provided. At least one gate structure including a dummy gate is formed on a substrate. A contact etch stop layer and a dielectric layer are formed to cover the gate structure. A portion of the contact etch stop layer and a portion of the dielectric layer are removed to expose the top of the gate structure. A dry etching process is performed to remove a portion of the dummy gate of the gate structure. A hydrogenation treatment is performed to the surface of the remaining dummy gate. A wet etching process is performed to remove the remaining dummy gate and thereby form a gate trench. | 10-23-2014 |
20140342553 | Method for Forming Semiconductor Structure Having Opening - According to one embodiment of the present invention, a method for forming a semiconductor structure having an opening is provided. First, a substrate is provided, wherein a first region and a second region are defined on the substrate and an overlapping area of the first region and the second region is defined as a third region. Then, a material layer is formed on the substrate. A first hard mask and a second hard mask are formed on the material layer. The first hard mask in the first region is removed to form a patterned first hard mask. The second hard mask in the third region is removed to form a patterned second hard mask. Lastly, the material layer is patterned by using the patterned second hard mask layer as a mask to form at least an opening in the third region only. | 11-20-2014 |
20140346575 | SEMICONDUCTOR DEVICE WITH SELF-ALIGNED CONTACT AND METHOD OF MANUFACTURING THE SAME - A semiconductor device with a self-aligned contact and a method of manufacturing the same, wherein the method comprises the step of forming a 1st dielectric layer on gate structures, form a self-aligned contact trench between two gate structures, forming an 2nd dielectric layer on the 1st dielectric layer and in the self-aligned contact trench; patterning the 2nd dielectric layer into a 1st portion on the 1st dielectric layer and a 2nd portion filling in the self-aligned contact trench, using the 2nd dielectric layer as a mask to etch the 1st dielectric layer, and forming a metal layer and a self-aligned contact simultaneously in the 1st dielectric layer and in the self-aligned contact trench. | 11-27-2014 |
20140349236 | Method for Forming Semiconductor Structure Having Opening - A method for forming a semiconductor structure having an opening is provided. First, a substrate is provided, wherein a first region and a second region are defined on the substrate and an overlapping area of the first region and the second region is defined as a third region. A pattern density of the first region is substantially greater than that of the second region. Then, a material layer is formed on the substrate. A first hard mask and a second hard mask are formed on the material layer. The first hard mask in the first region is removed to form a patterned first hard mask. The second hard mask in the third region is removed to form a patterned second hard mask. Lastly, the material layer is patterned by using the patterned second hard mask layer as a mask to form at least an opening in the third region only. | 11-27-2014 |
20140349476 | MANUFACTURING METHOD FOR FORMING A SEMICONDUCTOR STRUCTURE - The present invention provides a manufacturing method of a semiconductor device, at least containing the following steps: first, a substrate is provided, wherein a first dielectric layer is formed on the substrate, at least one metal gate is formed in the first dielectric layer and at least one source drain region (S/D region) is disposed on two sides of the metal gate, at least one first trench is then formed in the first dielectric layer, exposing parts of the S/D region. The manufacturing method for forming the first trench further includes performing a first photolithography process through a first photomask and performing a second photolithography process through a second photomask, and at least one second trench is formed in the first dielectric layer, exposing parts of the metal gate, and finally, a conductive layer is filled in each first trench and each second trench. | 11-27-2014 |