Patent application number | Description | Published |
20110180113 | METHOD OF WAFER CLEANING AND APPARATUS OF WAFER CLEANING - A method of cleaning wafer cleaning includes: first a wafer stage for holding and rotating a wafer is provided. The wafer has a surface to be washed. A nozzle is positioned on the wafer for spraying a cleaning solution. The nozzle moves in non-uniform motion from a first given point to a second given point so as to make the time which the first given point is exposed to the cleaning solution equal to the time which the second given point is exposed to the cleaning solution. Furthermore, the nozzle moves faster when passing the center of the wafer and moves slower when passing the edge of the wafer. | 07-28-2011 |
20120021583 | SEMICONDUCTOR PROCESS - A semiconductor process is disclosed. The semiconductor process includes the steps of: providing a substrate having a specific area defined thereon; and performing an etch process by using an etchant comprising H | 01-26-2012 |
20120070948 | ADJUSTING METHOD OF CHANNEL STRESS - An adjusting method of channel stress includes the following steps. A substrate is provided. A metal-oxide-semiconductor field-effect transistor is formed on the substrate. The MOSFET includes a source/drain region, a channel, a gate, a gate dielectric layer and a spacer. A dielectric layer is formed on the substrate and covers the metal-oxide-semiconductor field-effect transistor. A flattening process is applied onto the dielectric layer. The remaining dielectric layer is removed to expose the source/drain region. A non-conformal high stress dielectric layer is formed on the substrate having the exposed source/drain region. | 03-22-2012 |
20120074468 | SEMICONDUCTOR STRUCTURE - A semiconductor structure comprises a substrate, a gate structure, at least a source/drain region, a recess and an epitaxial layer. The substrate includes an up surface. A gate structure is located on the upper surface. The source/drain region is located within the substrate beside the gate structure. The recess is located within the source/drain region. The epitaxial layer fills the recess, and the cross-sectional profile of the epitaxial layer is an octagon. | 03-29-2012 |
20120086054 | SEMICONDUCTOR STRUCTURE AND METHOD FOR MAKING THE SAME - A semiconductor structure is disclosed. The semiconductor structure includes a gate structure disposed on a substrate, a source and a drain respectively disposed in the substrate at two sides of the gate structure, a source contact plug disposed above the source and electrically connected to the source and a drain contact plug disposed above the drain and electrically connected to the drain. The source contact plug and the drain contact plug have relatively asymmetric element properties. | 04-12-2012 |
20120115284 | METHOD FOR MANUFACTURING MULTI-GATE TRANSISTOR DEVICE - A method for manufacturing a multi-gate transistor device includes providing a semiconductor substrate having a first patterned semiconductor layer formed thereon, sequentially forming a gate dielectric layer and a gate layer covering a portion of the first patterned semiconductor layer on the semiconductor substrate, removing a portion of the first patterned semiconductor layer to form a second patterned semiconductor layer, and performing a selective epitaxial growth process to form an epitaxial layer on a surface of the second patterned semiconductor layer. | 05-10-2012 |
20120196410 | METHOD FOR FABRICATING FIN FIELD EFFECT TRANSISTOR - A method for fabricating a fin-FET, wherein the method comprises several steps as follows: A substrate is first provided, and a silicon fin is then formed in the substrate. Next a dielectric layer is formed on the silicon fin and the substrate. A poly silicon layer is subsequently formed on the dielectric layer, and the poly silicon layer is then planarized. Subsequently, a poly silicon gate is formed and a portion of the silicon fin is exposed by patterning the planarized poly silicon layer. A source and a drain are separately formed on two opposite sides of the exposed silicon fin adjacent to the poly silicon gate. | 08-02-2012 |
20120223397 | METAL GATE STRUCTURE AND MANUFACTURING METHOD THEREOF - A method for manufacturing a metal gate structure includes providing a substrate having a high-K gate dielectric layer and a bottom barrier layer sequentially formed thereon, forming a work function metal layer on the substrate, and performing an anneal treatment to the work function metal layer in-situ. | 09-06-2012 |
20120241863 | FIN FIELD-EFFECT TRANSISTOR STRUCTURE AND MANUFACTURING PROCESS THEREOF - A fin field-effect transistor structure includes a substrate, a fin channel and a high-k metal gate. The high-k metal gate is formed on the substrate and the fin channel. A process of manufacturing the fin field-effect transistor structure includes the following steps. Firstly, a polysilicon pseudo gate structure is formed on the substrate and a surface of the fin channel. By using the polysilicon pseudo gate structure as a mask, a source/drain region is formed in the fin channel. After the polysilicon pseudo gate structure is removed, a high-k dielectric layer and a metal gate layer are successively formed. Afterwards, a planarization process is performed on the substrate having the metal gate layer until the first dielectric layer is exposed, so that a high-k metal gate is produced. | 09-27-2012 |
20120244669 | Method of Manufacturing Semiconductor Device Having Metal Gates - The present invention provides a method of manufacturing semiconductor device having metal gates. First, a substrate is provided. A first conductive type transistor having a first sacrifice gate and a second conductive type transistor having a second sacrifice gate are disposed on the substrate. The first sacrifice gate is removed to form a first trench. Then, a first metal layer is formed in the first trench. The second sacrifice gate is removed to form a second trench. Next, a second metal layer is formed in the first trench and the second trench. Lastly, a third metal layer is formed on the second metal layer wherein the third metal layer is filled into the first trench and the second trench. | 09-27-2012 |
20120244675 | METHOD FOR FORMING METAL GATE - A method for forming a metal gate is provided. First, a dummy material is formed to completely cover a substrate. Second, a dopant is selectively implanted into the dummy material. Then, some of the dummy material is removed to expose part of the substrate and to form a dummy gate including a dopant region disposed between a first region and a second region. Later an interlayer dielectric layer is formed to surround the dummy gate. Next, a selective etching step is carried out to remove the first region to form a recess without substantially removing the dopant region. Afterwards, the recess is filled with a material set to form a metal gate. | 09-27-2012 |
20120248507 | METAL GATE STRUCTURE AND MANUFACTURING METHOD THEREOF - A manufacturing method of a metal gate structure includes providing a substrate having at least a first metal oxide layer formed thereon, and transferring the surface of the first metal oxide layer into a second metal oxide layer. The first metal oxide layer includes a metal oxide (M | 10-04-2012 |
20120248511 | SEMICONDUCTOR STRUCTURE AND METHOD FOR SLIMMING SPACER - A semiconductor structure including a substrate and a gate structure disposed on the substrate is disclosed. The gate structure includes a gate dielectric layer disposed on the substrate, a gate material layer disposed on the gate dielectric layer and an outer spacer with a rectangular cross section. The top surface of the outer spacer is lower than the top surface of the gate material layer. | 10-04-2012 |
20120264306 | Method of Forming Opening on Semiconductor Substrate - The present invention provides a method of forming an opening on a semiconductor substrate. First, a substrate is provided. Then a dielectric layer and a cap layer are formed on the substrate. A ratio of a thickness of the dielectric layer and a thickness of the cap layer is substantially between 15 and 1.5. Next, a patterned boron nitride layer is formed on the cap layer. Lastly, an etching process is performed by using the patterned hard mask as a mask to etch the cap layer and the dielectric layer so as to form an opening in the cap layer and the dielectric layer. | 10-18-2012 |
20120270377 | METHOD OF FABRICATING A SEMICONDUCTOR STRUCTURE - A method of fabricating a semiconductor structure, in which after an etching process is performed to form at least one recess within a semiconductor beside a gate structure, a thermal treatment is performed on the recess in a gas atmosphere including an inert gas before a silicon-containing epitaxial layer is formed in the recess through an epitaxy growth process. | 10-25-2012 |
20120319198 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A semiconductor device including a substrate, a spacer and a high-k dielectric layer having a U-shape profile is provided. The spacer located on the substrate surrounds and defines a trench. The high-k dielectric layer having a U-shape profile is located in the trench, and the high-k dielectric layer having a U-shape profile exposes an upper portion of the sidewalls of the trench. | 12-20-2012 |
20120322260 | THROUGH-SILICON VIA FORMING METHOD - A through-silicon via forming method includes the following steps. Firstly, a semiconductor substrate is provided. Then, a through-silicon via conductor is formed in the semiconductor substrate, and a topside of the through-silicon via conductor is allowed to be at the same level as a surface of the semiconductor substrate. Afterwards, a portion of the through-silicon via conductor is removed, and the topside of the through-silicon via conductor is allowed to be at a level lower than the surface of the semiconductor substrate, so that a recess is formed over the through-silicon via conductor. | 12-20-2012 |
20130001707 | FABRICATING METHOD OF MOS TRANSISTOR, FIN FIELD-EFFECT TRANSISTOR AND FABRICATION METHOD THEREOF - A fabricating method of a MOS transistor includes the following steps. A substrate is provided. A gate dielectric layer is formed on the substrate. A nitridation process containing nitrogen plasma and helium gas is performed to nitride the gate dielectric layer. A fin field-effect transistor and fabrication method thereof are also provided. | 01-03-2013 |
20130078778 | SEMICONDUCTOR PROCESS - A semiconductor process is described as follows. A plurality of dummy patterns is formed on a substrate. A mask material layer is conformally formed on the substrate, so as to cover the dummy patterns. The mask material layer has an etching rate different from that of the dummy patterns. A portion of the mask material layer is removed, so as to form a mask layer on respective sidewalls of each dummy pattern. An upper surface of the mask layer and an upper surface of each dummy pattern are substantially coplanar. The dummy patterns are removed. A portion of the substrate is removed using the mask layer as a mask, so as to form a plurality of fin structures and a plurality of trenches alternately arranged in the substrate. The mask layer is removed. | 03-28-2013 |
20130087810 | FIN FIELD-EFFECT TRANSISTOR STRUCTURE - A fin field-effect transistor structure comprises a substrate, a fin channel, a source/drain region, a high-k metal gate and a plurality of slot contact structures. The fin channel is formed on the substrate. The source/drain region is formed in the fin channel. The high-k metal gate formed on the substrate and the fin channel comprises a high-k dielectric layer and a metal gate layer, wherein the high-k dielectric layer is arranged between the metal gate layer and the fin channel. The slot contact structures are disposed at both sides of the metal gate. | 04-11-2013 |
20130089957 | FIN FIELD-EFFECT TRANSISTOR STRUCTURE AND MANUFACTURING PROCESS THEREOF - A fin field-effect transistor structure includes a substrate, a fin channel and a high-k metal gate. The high-k metal gate is formed on the substrate and the fin channel. A process of manufacturing the fin field-effect transistor structure includes the following steps. Firstly, a polysilicon pseudo gate structure is formed on the substrate and a surface of the fin channel. By using the polysilicon pseudo gate structure as a mask, a source/drain region is formed in the fin channel. After the polysilicon pseudo gate structure is removed, a high-k dielectric layer and a metal gate layer are successively formed. Afterwards, a planarization process is performed on the substrate having the metal gate layer until the first dielectric layer is exposed, so that a high-k metal gate is produced. | 04-11-2013 |
20130207122 | METHOD FOR FABRICATING FINFETS AND SEMICONDUCTOR STRUCTURE FABRICATED USING THE METHOD - A method for fabricating FinFETs is described. A semiconductor substrate is patterned to form odd fins. Spacers are formed on the substrate and on the sidewalls of the odd fins, wherein each spacer has a substantially vertical sidewall. Even fins are then formed on the substrate between the spacers. A semiconductor structure for forming FinFETs is also described, which is fabricated using the above method. | 08-15-2013 |
20130288446 | SEMICONDUCTOR STRUCTURE AND METHOD FOR SLIMMING SPACER - A semiconductor structure including a substrate and a gate structure disposed on the substrate is disclosed. The gate structure includes a gate dielectric layer disposed on the substrate, a gate material layer disposed on the gate dielectric layer and an outer spacer with a rectangular cross section. The top surface of the outer spacer is lower than the top surface of the gate material layer. | 10-31-2013 |
20130330919 | MANUFACTURING PROCESS OF GATE STACK STRUCTURE WITH ETCH STOP LAYER - A manufacturing process of an etch stop layer is provided. The manufacturing process includes steps of providing a substrate; forming a gate stack structure over the substrate, wherein the gate stack structure at least comprises a dummy polysilicon layer and a barrier layer; removing the dummy polysilicon layer to define a trench and expose a surface of the barrier layer; forming a repair layer on the surface of the barrier layer and an inner wall of the trench; and forming an etch stop layer on the repair layer. In addition, a manufacturing process of the gate stack structure with the etch stop layer further includes of forming an N-type work function metal layer on the etch stop layer within the trench, and forming a gate layer on the N-type work function metal layer within the trench. | 12-12-2013 |
20140106568 | METHOD OF FORMING OPENING ON SEMICONDUCTOR SUBSTRATE - The present invention provides a method of forming an opening on a semiconductor substrate. First, a substrate is provided. Then a dielectric layer and a cap layer are formed on the substrate. A ratio of a thickness of the dielectric layer and a thickness of the cap layer is substantially between 15 and 1.5. Next, a patterned boron nitride layer is formed on the cap layer. Lastly, an etching process is performed by using the patterned hard mask as a mask to etch the cap layer and the dielectric layer so as to form an opening in the cap layer and the dielectric layer. | 04-17-2014 |
20140332824 | SEMICONDUCTOR STRUCTURE WITH DIFFERENT FINS OF FINFETS - A semiconductor structure for forming FinFETs is described. The semiconductor structure includes a semiconductor substrate, a plurality of odd fins of the FinFETs on the substrate, and a plurality of even fins of the FinFETs on the substrate between the odd fins of the FinFETs. The odd fins of the FinFETs are defined from the substrate. The even fins of the FinFETs are different from the odd fins of the FinFETs in at least one of the width and the material, and may be further different from the odd fins of the FinFETs in the height. | 11-13-2014 |
20140370701 | METHOD OF FABRICATING SEMICONDUCTOR PATTERNS - A method of fabricating semiconductor patterns includes steps as follows: Firstly, a substrate is provided and has at least a first semiconductor pattern and at least a second semiconductor pattern, wherein a line width of the first semiconductor pattern is identical to a line width of the second semiconductor pattern. Then, a barrier pattern is formed over a surface of the first semiconductor pattern, and the second semiconductor pattern is exposed. Then, a surface portion of the second semiconductor pattern is reacted to form a sacrificial structure layer. Then, the barrier pattern and the sacrificial structure layer are removed, and the line width of the second semiconductor pattern is shrunken to be less than the line width of the first semiconductor pattern. A third semiconductor pattern having a line width can be further provided. | 12-18-2014 |
20150064896 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - Provided is a method of fabricating a semiconductor device including the following steps. A dummy gate structure is formed on a substrate, wherein the dummy gate structure includes a dummy gate and a stacked hard mask, and the stacked hard mask includes from bottom to top a first hard mask layer and a second hard mask layer. A spacer is formed on a sidewall of the dummy gate structure. A mask layer is formed on the substrate. An opening corresponding to the second hard mask layer is formed in the mask layer. The second hard mask layer is removed. The mask layer is removed. A dry etch process is performed to remove the first hard mask layer, wherein the dry etch process uses NF | 03-05-2015 |