Patent application number | Description | Published |
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 |
20140349452 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICES - A method for manufacturing a semiconductor device is provided. A first stack structure and a second stack structure are formed to respectively cover a portion of a first fin structure and a second fin structure. Subsequently, a spacer is respectively formed on the sidewalls of the fin structures through an atomic layer deposition process and the composition of the spacers includes silicon carbon nitride. Afterwards, a interlayer dielectric is formed and etched so as to expose the hard mask layers. A mask layer is formed to cover the second stack structure and a portion of the dielectric layer. Later, the hard mask layer in the first stack structure is removed under the coverage of the mask layer. Then, a dummy layer in the first stack structure is replaced with a conductive layer. | 11-27-2014 |
20140361352 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A method for fabricating a semiconductor device is provided herein and includes the following steps. First, a first interlayer dielectric is formed on a substrate. Then, a gate electrode is formed on the substrate, wherein a periphery of the gate electrode is surrounded by the first interlayer dielectric. Afterwards, a patterned mask layer is formed on the gate electrode, wherein a bottom surface of the patterned mask layer is leveled with a top surface of the first interlayer dielectric. A second interlayer dielectric is then formed to cover a top surface and each side surface of the patterned mask layer. Finally, a self-aligned contact structure is formed in the first interlayer dielectric and the second interlayer dielectric. | 12-11-2014 |
20150052491 | METHOD FOR GENERATING LAYOUT PATTERN - A method for generating a layout pattern is provided. First, a layout pattern is provided to a computer system and is classified into two sub-patterns and a blank pattern. Each of the sub-patterns has pitches in simple integer ratios and the blank pattern is between the two sub-patterns. Then, a plurality of first stripe patterns and at least two second stripe patterns are generated. The edges of the first stripe patterns are aligned with the edges of the sub-patterns and the first stripe patterns have equal spacings and widths. The spacings or widths of the second stripe patterns are different from that of the first stripe patterns. | 02-19-2015 |
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 |
20150076623 | METAL GATE TRANSISTOR AND METHOD FOR FABRICATING THE SAME - A method for fabricating metal gate transistor is disclosed. The method includes the steps of: providing a substrate having a NMOS region and a PMOS region; forming a dummy gate on each of the NMOS region and the PMOS region respectively; removing the dummy gates from each of the NMOS region and the PMOS region; forming a n-type work function layer on the NMOS region and the PMOS region; removing the n-type work function layer in the PMOS region; forming a p-type work function layer on the NMOS region and the PMOS region; and depositing a low resistance metal layer on the p-type work function layer of the NMOS region and the PMOS region. | 03-19-2015 |
20150093870 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE STRUCTURE - A method of fabricating a semiconductor device structure is provided. The method includes the following step. A gate dielectric layer is formed on a substrate. A gate electrode is on the gate dielectric layer. The gate dielectric layer exposed by the gate electrode is treated. A first etching process is performed to remove at least a portion of the gate dielectric layer exposed by the gate electrode. A spacer is formed on the sidewall of the gate electrode. A second etching process is performed to form recesses in the substrate beside the gate electrode. Besides, during the first etching process and the second etching process, an etching rate of the treated gate dielectric layer is greater than an etching rate of the untreated gate dielectric layer. | 04-02-2015 |
20150129980 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - A semiconductor structure comprises a substrate, a plurality of fins, an oxide layer and a gate structure. The fins protrude from the substrate and are separated from each other by the oxide layer. The surface of the oxide layer is uniform and even plane. The gate structure is disposed on the fins. The fin height is distance between the top of the fins and the oxide layer, and at least two of the fins have different fin heights. | 05-14-2015 |