Patent application number | Description | Published |
20080206942 | METHOD FOR FABRICATING STRAINED-SILICON METAL-OXIDE SEMICONDUCTOR TRANSISTORS - A method for fabricating strained-silicon transistors is disclosed. First, a semiconductor substrate is provided and a gate structure and a spacer surrounding the gate structure are disposed on the semiconductor substrate. A source/drain region is then formed in the semiconductor substrate around the spacer, and a first rapid thermal annealing process is performed to activate the dopants within the source/drain region. An etching process is performed to form a recess around the gate structure and a selective epitaxial growth process is performed to form an epitaxial layer in the recess. A second rapid thermal annealing process is performed to redefine the distribution of the dopants within the source/drain region and repair the damaged bonds of the dopants. | 08-28-2008 |
20080242017 | METHOD OF MANUFACTURING SEMICONDUCTOR MOS TRANSISTOR DEVICES - A method of fabricating metal-oxide-semiconductor (MOS) transistor devices is disclosed. A semiconductor substrate is provided. A gate dielectric layer is formed. A gate electrode is stacked on the gate dielectric layer. The gate electrode has vertical sidewalls and a top surface. A liner is formed on the vertical sidewalls of the gate electrode. A silicon nitride spacer is formed on the liner. Using the gate electrode and the silicon nitride spacer as an implantation mask, a source/drain is implanted into the substrate. After the source/drain implant, the silicon nitride spacer is then stripped. A silicide layer is formed on the source/drain region. Subsequently, a silicon nitride cap layer is deposited. The silicon nitride cap layer has a specific stress status. | 10-02-2008 |
20090023258 | METHOD OF MANUFACTURING COMPLEMENTARY METAL OXIDE SEMICONDUCTOR TRANSISTORS - A method for manufacturing CMOS transistors includes an etching back process alternatively performed after the gate structure formation, the lightly doped drain formation, source/drain implantation, or SEG process to etch a hard mask layer covering and protecting a first type gate structure, and to reduce thickness deviation between the hard masks covering the first type gate structure and a second type gate structure. Therefore the damage to spacers, STIs, and the profile of the gate structures due to the thickness deviation is prevented. | 01-22-2009 |
20090068805 | METHOD OF FORMING METAL-OXIDE-SEMICONDUCTOR TRANSISTORS - A method of manufacturing a MOS transistor device is provided. First, a semiconductor substrate having a gate structure is prepared. The gate structure has two sidewalls and a liner on the sidewalls. Subsequently, a stressed cap layer is formed on the semiconductor substrate, and covers the gate structure and the liner. Next, an activating process is performed. Furthermore, the stressed cap layer is etched to be a salicide block. Afterward, a salicide process is performed to form a silicide layer on the regions that are not covered by the stressed cap layer. | 03-12-2009 |
20090117701 | METHOD FOR MANUFACTURING A MOS TRANSISTOR - A method for manufacturing a MOS transistor includes performing a thermal treatment to repair damaged substrate before forming source/drain extension regions, accordingly negative bias temperature instability (NBTI) is reduced. Since the thermal treatment is performed before forming the source/drain extension regions, heat budget for forming the source/drain extension regions and junction depth and junction profile of the source/drain extension would not be affected. Therefore the provided method for manufacturing a MOS transistor is capable of reducing short channel effect and possesses a superior process compatibility. | 05-07-2009 |
20090186475 | Method of manufacturing a MOS transistor - A method of manufacturing a MOS transistor, in which, a tri-layer photo resist layer is used to form a patterned hard mask layer having a sound shape and a small size, and the patterned hard mask layer is used to form a gate. Thereafter, by forming and defining a cap layer, a recess is formed through etching in the substrate. The patterned hard mask is removed after epitaxial layers are formed in the recesses. Accordingly, a conventional poly bump issue and an STI oxide loss issue leading to contact bridge can be avoided. | 07-23-2009 |
20090246922 | METHOD OF FORMING CMOS TRANSISTOR - A method of forming CMOS transistor is disclosed. A CMOS transistor having a first active area and a second active area is provided. In order to maintain the concentration of the dopants in the second active area, according to the method of the present invention an ion implantation process is performed to form a lightly doped drain (LDD) in the second active area after an epitaxial layer is formed in the first active area. On the other hand, the ion implantation process is performed to form the respective LDD of the first active area and the second active area. After the epitaxial layer in the first active area is formed, another ion implantation process is performed to implant dopants into the LDD of the second active area again. | 10-01-2009 |