Patent application number | Description | Published |
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 |
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 |
20120256275 | METAL GATE STRUCTURE AND MANUFACTURING METHOD THEREOF - A manufacturing method of a metal gate structure includes first providing a substrate having a dummy gate formed thereon. The dummy gate includes a high-K gate dielectric layer, a bottom barrier layer, a first etch stop layer and a sacrificial layer sequentially and upwardly stacked on the substrate. Then, the sacrificial layer is removed to form a gate trench with the first etch stop layer exposed on the bottom of the gate trench. After forming the gate trench, a first work function metal layer is formed in the gate trench. | 10-11-2012 |
20120261770 | METAL GATE STRUCTURE - A metal gate structure includes a high-K gate dielectric layer, an N-containing layer, a work function metal layer, and an N-trapping layer. The N-containing layer is positioned between the work function metal layer and the high-K gate dielectric layer. The N-trapping layer is positioned between the work function metal layer and the high-K gate dielectric layer, and the N-trapping layer contains no nitrogen or low-concentration nitrogen. | 10-18-2012 |
20120273902 | GATE STACK STRUCTURE WITH ETCH STOP LAYER AND MANUFACTURING PROCESS THEREOF - A gate stack structure with an etch stop layer is provided. The gate stack structure is formed over a substrate. A spacer is formed on a sidewall of the gate stack structure. The gate stack structure includes a gate dielectric layer, a barrier layer, a repair layer and the etch stop layer. The gate dielectric layer is formed on the substrate. The barrier layer is formed on the gate dielectric layer. The barrier layer and an inner sidewall of the spacer collectively define a trench. The repair layer is formed on the barrier layer and an inner wall of the trench. The etch stop layer is formed on the repair layer. | 11-01-2012 |
20120292721 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A method of fabricating a semiconductor device includes following steps. A substrate is provided, wherein a first dielectric layer having a trench therein is formed on the substrate, a source/drain region is formed in the substrate at two sides of the trench, and a second dielectric layer is formed on the substrate in the trench. A first physical vapor deposition process is performed to form a Ti-containing metal layer in the trench. A second physical vapor deposition process is performed to form an Al layer on the Ti-containing metal layer in the trench. A thermal process is performed to anneal the Ti-containing metal layer and the Al layer so as to form a work function metal layer. A metal layer is formed to fill the trench. | 11-22-2012 |
20120319179 | METAL GATE AND FABRICATION METHOD THEREOF - A metal gate includes a substrate, a gate dielectric layer, a work function metal layer, an aluminum nitride layer and a stop layer. The gate dielectric layer is located on the substrate. The work function metal layer is located on the gate dielectric layer. The aluminum nitride layer is located on the work function metal layer. The stop layer is located on the aluminum nitride layer. | 12-20-2012 |
20120322218 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device includes the following steps. Firstly, a dummy gate structure having a dummy gate electrode layer is provided. Then, the dummy gate electrode layer is removed to form an opening in the dummy gate structure, thereby exposing an underlying layer beneath the dummy gate electrode layer. Then, an ammonium hydroxide treatment process is performed to treat the dummy gate structure. Afterwards, a metal material is filled into the opening. | 12-20-2012 |
20120326243 | TRANSISTOR HAVING ALUMINUM METAL GATE AND METHOD OF MAKING THE SAME - A transistor having an aluminum metal gate includes a substrate, a high-k gate dielectric layer, an aluminum metal gate and a source/drain region. The high-k gate dielectric layer is disposed on the substrate. The aluminum metal gate includes a work function tuning layer and an aluminum metal layer disposed orderly on the high-k gate dielectric layer, where the aluminum metal layer comprises a first aluminum metal layer and a second aluminum metal layer. Furthermore, the source/drain region is disposed in the substrate at each of two sides of the aluminum metal gate. | 12-27-2012 |
20130113053 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure includes a substrate, a dielectric layer and a fluoride metal layer. The dielectric layer is located on the substrate. The fluoride metal layer is located on the dielectric layer. Furthermore, the present invention also provides a semiconductor process to form said semiconductor structure. | 05-09-2013 |
20130168744 | Semiconductor Device Having a Metal Gate and Fabricating Method Thereof - The present invention provides a method of forming a semiconductor device having a metal gate. A substrate is provided and a gate dielectric and a work function metal layer are formed thereon, wherein the work function metal layer is on the gate dielectric layer. Then, a top barrier layer is formed on the work function metal layer. The step of forming the top barrier layer includes increasing a concentration of a boundary protection material in the top barrier layer. Lastly, a metal layer is formed on the top barrier layer. The present invention further provides a semiconductor device having a metal gate. | 07-04-2013 |
20130214336 | METHOD FOR FILLING TRENCH WITH METAL LAYER AND SEMICONDUCTOR STRUCTURE FORMED BY USING THE SAME - A method for filling a trench with a metal layer is disclosed. A deposition apparatus having a plurality of supporting pins is provided. A substrate and a dielectric layer disposed thereon are provided. The dielectric layer has a trench. A first deposition process is performed immediately after the substrate is placed on the supporting pins to form a metal layer in the trench, wherein during the first deposition process a temperature of the substrate is gradually increased to reach a predetermined temperature. When the temperature of the substrate reaches the predetermined temperature, a second deposition process is performed to completely fill the trench with the metal layer. | 08-22-2013 |
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 |
20130334690 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure includes a work function metal layer, a (work function) metal oxide layer and a main electrode. The work function metal layer is located on a substrate. The (work function) metal oxide layer is located on the work function metal layer. The main electrode is located on the (work function) metal oxide layer. Moreover a semiconductor process forming said semiconductor structure is also provided. | 12-19-2013 |
20140054654 | MOS TRANSISTOR AND PROCESS THEREOF - A MOS transistor includes a gate structure on a substrate, and the gate structure includes a wetting layer, a transitional layer and a low resistivity material from bottom to top, wherein the transitional layer has the properties of a work function layer, and the gate structure does not have any work function layers. Moreover, the present invention provides a MOS transistor process forming said MOS transistor. | 02-27-2014 |
20140097507 | Semiconductor Device Having a Metal Gate and Fabricating Method Thereof - The present invention provides a method of forming a semiconductor device having a metal gate. A substrate is provided and a gate dielectric and a work function metal layer are formed thereon, wherein the work function metal layer is on the gate dielectric layer. Then, a top barrier layer is formed on the work function metal layer. The step of forming the top barrier layer includes increasing a concentration of a boundary protection material in the top barrier layer. Lastly, a metal layer is formed on the top barrier layer. The present invention further provides a semiconductor device having a metal gate. | 04-10-2014 |
20140120711 | METHOD OF FORMING METAL GATE - Provided is a method of forming a metal gate including the following steps. A dielectric layer is formed on a substrate, wherein a gate trench is formed in the dielectric layer and a gate dielectric layer is formed in the gate trench. A first metal layer is formed in the gate trench by applying a AC bias between a target and the substrate during physical vapor deposition. A second metal layer is formed in the gate trench by applying a DC bias between the target and the substrate during physical vapor deposition. | 05-01-2014 |
20140239419 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device is provided. A silicon substrate is provided, and a gate insulating layer is formed on the silicon substrate. Then, a silicon barrier layer is formed on the gate insulating layer by the physical vapor deposition (PVD) process. Next, a silicon-containing layer is formed on the silicon barrier layer. The silicon barrier layer of the embodiment is a hydrogen-substantial-zero silicon layer, which has a hydrogen concentration of zero substantially. | 08-28-2014 |
20140306273 | STRUCTURE OF METAL GATE STRUCTURE AND MANUFACTURING METHOD OF THE SAME - A manufacturing method of a metal gate structure is provided. First, a substrate covered by an interlayer dielectric is provided. A gate trench is formed in the interlayer dielectric, wherein a gate dielectric layer is formed in the gate trench. A silicon-containing work function layer is formed on the gate dielectric layer in the gate trench. Finally, the gate trench is filled up with a conductive metal layer. | 10-16-2014 |
20140346616 | TRANSISTOR AND SEMICONDUCTOR STRUCTURE - A semiconductor structure includes a work function metal layer, a (work function) metal oxide layer and a main electrode. The work function metal layer is located on a substrate. The (work function) metal oxide layer is located on the work function metal layer. The main electrode is located on the (work function) metal oxide layer. A semiconductor process forming said semiconductor structure is also provided. | 11-27-2014 |
20140361386 | SEMICONDUCTOR DEVICE - Provided is a semiconductor device including a substrate, a gate structure, a second dielectric layer and a source/drain region. A first dielectric layer is disposed on the substrate, and the first dielectric layer has a trench therein. The gate structure is disposed on the substrate in the trench and includes a work function metal layer and a metal layer. The work function metal layer is disposed in the trench, and includes a TiAl | 12-11-2014 |
20140374909 | METHOD FOR FILLING TRENCH WITH METAL LAYER AND SEMICONDUCTOR STRUCTURE FORMED BY USING THE SAME - A method for filling a trench with a metal layer is disclosed. A deposition apparatus having a plurality of supporting pins is provided. A substrate and a dielectric layer disposed thereon are provided. The dielectric layer has a trench. A first deposition process is performed immediately after the substrate is placed on the supporting pins to form a metal layer in the trench, wherein during the first deposition process a temperature of the substrate is gradually increased to reach a predetermined temperature. When the temperature of the substrate reaches the predetermined temperature, a second deposition process is performed to completely fill the trench with the metal layer. The present invention further provides a semiconductor device having an aluminum layer with a reflectivity greater than 1, wherein the semiconductor device is formed by using the method. | 12-25-2014 |
20150061042 | METAL GATE STRUCTURE AND METHOD OF FABRICATING THE SAME - A metal gate structure is provided. The metal gate structure includes a semiconductor substrate, a gate dielectric layer, a multi-layered P-type work function layer and a conductive metal layer. The gate dielectric layer is disposed on the semiconductor substrate. The multi-layered P-type work function layer is disposed on the gate dielectric layer, and the multi-layered P-type work function layer includes at least a crystalline P-type work function layer and at least an amorphous P-type work function layer. Furthermore, the conductive metal layer is disposed on the multi-layered P-type work function layer. | 03-05-2015 |
20150255307 | 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. | 09-10-2015 |