Patent application number | Description | Published |
20110189827 | METHOD OF FABRICATING EFUSE STRUCTURE, RESISTOR STURCTURE AND TRANSISTOR STURCTURE - A method of fabricating an efuse structure, a resistor structure and a transistor structure. First, a work function metal layer, a polysilicon layer and a first hard mask layer are formed to cover a transistor region, a resistor region and an e-fuse region on a substrate. Then, the work function metal layer on the resistor region and the efuse region is removed by using a first photomask. Later, a gate, a resistor, an efuse are formed in the transistor region, the resistor region and the efuse region respectively. After that, a dielectric layer aligning with the top surface of the gate is formed. Later, the polysilicon layer in the gate is removed by taking a second hard mask as a mask to form a recess. Finally, a metal layer fills up the recess. | 08-04-2011 |
20120070952 | REMOVING METHOD OF A HARD MASK - A removing method of a hard mask includes the following steps. A substrate is provided. At least two MOSFETs are formed on the substrate. An isolating structure is formed in the substrate and located between the at least two MOSFETs. Each of the MOSEFTs includes a gate insulating layer, a gate, a spacer and a hard mask on the gate. A protecting structure is formed on the isolating structure and the hard mask is exposed from the protecting structure. The exposed hard mask is removed to expose the gate. | 03-22-2012 |
20120088368 | METHOD OF SELECTIVELY REMOVING PATTERNED HARD MASK - A method of selectively removing a patterned hard mask is described. A substrate with a patterned target layer thereon is provided, wherein the patterned target layer includes a first target pattern and at least one second target pattern, and the patterned hard mask includes a first mask pattern on the first target pattern and a second mask pattern on the at least one second target pattern. A first photoresist layer is formed covering the first mask pattern. The sidewall of the at least one second target pattern is covered by a second photoresist layer. The second mask pattern is removed using the first photoresist layer and the second photoresist layer as a mask. | 04-12-2012 |
20120139042 | 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. | 06-07-2012 |
20120142157 | Method of fabricating a semiconductor structure - The method of fabricating a semiconductor structure according to the present invention includes planarizing an inter-layer dielectric layer and further a hard mask to remove a portion of hard mask in a thickness direction. The remaining hard mask has a thickness less than the original thickness of the hard mask. The remaining hard mask and the dummy gate are removed to form a recess. After a gate material is filled into the recess, a gate with a relatively accurate height can be obtained. | 06-07-2012 |
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 |
20120256276 | Metal Gate and Fabricating Method Thereof - A method of manufacturing a metal gate is provided. The method includes providing a substrate. Then, a gate dielectric layer is formed on the substrate. A multi-layered stack structure having a work function metal layer is formed on the gate dielectric layer. An O | 10-11-2012 |
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 |
20140327055 | REPLACEMENT GATE PROCESS AND DEVICE MANUFACTURED USING THE SAME - A replacement gate process is disclosed. A substrate and a dummy gate structure formed on the substrate is provided, wherein the dummy gate structure comprises a dummy layer on the substrate, a hard mask layer on the dummy layer, spacers at two sides of the dummy layer and the hard mask layer, and a contact etch stop layer (CESL) covering the substrate, the spacers and the hard mask layer. The spacers and the CESL are made of the same material. Then, a top portion of the CESL is removed to expose the hard mask layer. Next, the hard mask layer is removed. Afterward, the dummy layer is removed to form a trench. | 11-06-2014 |
20140327093 | FIELD-EFFECT TRANSISTOR AND FABRICATING METHOD THEREOF - A field-effect transistor comprises a substrate, a gate dielectric layer, a barrier layer, a metal gate electrode and a source/drain structure. The gate dielectric layer is disposed on the substrate. The barrier layer having a titanium-rich surface is disposed on the gate dielectric layer. The metal gate electrode is disposed on the titanium-diffused surface. The source/drain structure is formed in the substrate and adjacent to the metal gate electrode. | 11-06-2014 |
20140339652 | SEMICONDUCTOR DEVICE WITH OXYGEN-CONTAINING METAL GATES - A semiconductor device with oxygen-containing metal gates includes a substrate, a gate dielectric layer and a multi-layered stack structure. The multi-layered stack structure is disposed on the substrate. At least one layer of the multi-layered stack structure includes a work function metal layer. The concentration of oxygen in the side of one layer of the multi-layered stack structure closer to the gate dielectric layer is less than that in the side of one layer of the multi-layered stack structure opposite to the gate dielectric layer. | 11-20-2014 |
20140361373 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A semiconductor device includes a fin structure, an isolation structure, a gate structure and an epitaxial structure. The fin structure protrudes from the surface of the substrate and includes a top surface and two sidewalls. The isolation structure surrounds the fin structure. The gate structure overlays the top surface and the two sidewalls of a portion of the fin structure, and covers a portion of the isolation structure. The isolation structure under the gate structure has a first top surface and the isolation structure at two sides of the gate structure has a second top surface, wherein the first top surface is higher than the second top surface. The epitaxial layer is disposed at one side of the gate structure and is in direct contact with the fin structure. | 12-11-2014 |
20140363935 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A substrate is provided. At least a fin-shaped structure is formed on the substrate and a gate structure partially overlapping the fin-shaped structure is formed. Subsequently, a dielectric layer is blanketly formed on the substrate, and a part of the dielectric layer is removed to form a first spacer on the fin-shaped structure and a second spacer besides the fin-shaped structure. Furthermore, the second spacer and a part of the fin-shaped structure are removed to form at least a recess at a side of the gate structure, and an epitaxial layer is formed in the recess. | 12-11-2014 |
20150035069 | FINFET AND METHOD FOR FABRICATING THE SAME - A method for fabricating fin-shaped field-effect transistor (FinFET) is disclosed. The method includes the steps of: providing a substrate; forming a fin-shaped structure in the substrate; forming a shallow trench isolation (STI) on the substrate and around the bottom portion of the fin-shaped structure; forming a first gate structure on the STI and the fin-shaped structure; and removing a portion of the STI for exposing the sidewalls of the STI underneath the first gate structure. | 02-05-2015 |