| Patent application number | Description | Published |
|---|
| 20090068810 | METHOD OF FABRICATION OF METAL OXIDE SEMICONDUCTOR FIELD EFFECT TRANSISTOR - A method of fabrication of a metal oxide semiconductor field effect transistor includes first providing a substrate on which a gate structure is formed. Afterwards, a portion of the substrate is removed to form a first recess in the substrate at both ends of the gate structure. Additionally, a source/drain extension layer is deposited in the first recess and a number of spacers are formed at both ends of the gate structure. Subsequently, a portion of the source/drain extension and the substrate are removed to form a second recess in the source/drain extension and a portion of the substrate outside of the spacer. In addition, a source/drain layer is deposited in the second recess. Because the source/drain extension and the source/drain layer have specific materials and structures, short channel effect is improved and the efficiency of the metal oxide semiconductor field effect transistor is improved. | 03-12-2009 |
| 20110097859 | METHOD OF FABRICATING CMOS TRANSISTOR - A method of fabricating a CMOS transistor includes forming strained channels by re-crystallized amorphous polysilicon with the tensile film or the compressive film during annealing. C or Ge ions are optionally used to form solid-phase epitaxy to amplify the stress in the strained channel. Therefore, the charge carrier mobility in a CMOS transistor is improved. | 04-28-2011 |
| 20120083090 | Method of fabricating an NMOS transistor - A SiC region and a source/drain region are formed such that the SiC region includes a first portion overlapping the source/drain region and a second portion protruding from the source/drain region to a position beneath the LDD region. The concentration of crystalline SiC in the second portion is higher than the concentration of crystalline SiC in the first portion. The SiC region may be formed through a normal implantation before the second spacer is formed, or the SiC region may be formed through a tilt implantation or deposition epitaxially in a recess having a sigma-shape like sidewall after the second spacer is formed. | 04-05-2012 |
| 20120199849 | METHOD OF FABRICATION OF METAL OXIDE SEMICONDUCTOR FIELD EFFECT TRANSISTOR - A method of fabrication of a metal oxide semiconductor field effect transistor includes first providing a substrate on which a gate structure is formed. Afterwards, a portion of the substrate is removed to form a first recess in the substrate at both ends of the gate structure. Additionally, a source/drain extension layer is deposited in the first recess and a number of spacers are formed at both ends of the gate structure. Subsequently, a portion of the source/drain extension and the substrate are removed to form a second recess in the source/drain extension and a portion of the substrate outside of the spacer. In addition, a source/drain layer is deposited in the second recess. Because the source/drain extension and the source/drain layer have specific materials and structures, short channel effect is improved and the efficiency of the metal oxide semiconductor field effect transistor is improved. | 08-09-2012 |
| 20120199888 | FIN FIELD-EFFECT TRANSISTOR STRUCTURE - A fin field-effect transistor structure includes a silicon substrate, a fin channel, a gate insulator layer and a gate conductor layer. The fin channel is formed on a surface of the silicon substrate, wherein the fin channel has at least one slant surface. The gate insulator layer formed on the slant surface of the fin channel. The gate conductor layer formed on the gate insulator layer. | 08-09-2012 |
| 20120241868 | METAL-GATE CMOS DEVICE - A method for fabricating a metal-gate CMOS device. A substrate having thereon a first region and a second region is provided. A first dummy gate structure and a second dummy gate structure are formed within the first region and the second region respectively. A first LDD is formed on either side of the first dummy gate structure and a second LDD is formed on either side of the second dummy gate structure. A first spacer is formed on a sidewall of the first dummy gate structure and a second spacer is formed on a sidewall of the second dummy gate structure. A first embedded epitaxial layer is then formed in the substrate adjacent to the first dummy gate structure. The first region is masked with a seal layer. Thereafter, a second embedded epitaxial layer is formed in the substrate adjacent to the second dummy gate structure. | 09-27-2012 |
| 20120295187 | DUMMY PATTERNS AND METHOD FOR GENERATING DUMMY PATTERNS - A method for generating dummy patterns includes providing a layout region having a layout pattern with a first density, inserting a plurality of first dummy patterns with a second density corresponding to the first density in the layout pattern, dividing the layout region into a plurality of sub-regions with a third density, adjusting a size of the first dummy pattern according to a difference between the second density and the third density, and outputting the layout pattern and the first dummy patterns on a photomask. | 11-22-2012 |
| 20120299099 | FINFET TRANSISTOR STRUCTURE AND METHOD FOR MAKING THE SAME - A FINFET transistor structure includes a substrate, a fin structure, an insulating layer and a gate structure. The fin structure is disposed on the substrate and directly connected to the substrate. Besides, the fin structure includes a fin conductive layer and a bottle neck. The insulating layer covers the substrate and has a protruding side which is formed by partially surrounding the bottle neck of the fin structure, and a bottom side in direct contact with the substrate so that the protruding side extend to and under the fin structure. The gate structure partially surrounds the fin structure. | 11-29-2012 |
