Patent application number | Description | Published |
20080237746 | Gated diode with non-planar source region - A gated-diode semiconductor device or similar component and a method of fabricating the device. The device features a gate structure disposed on a substrate over a channel and adjacent a source and a drain. The top of the source or drain region, or both, are formed so as to be at a higher elevation, in whole or in part, than the bottom of the gate structure. This configuration may be achieved by overlaying the gate structure and substrate with a profile layer that guides a subsequent etch process to create a sloped profile. The source and drain, if both are present, may be symmetrical or asymmetrical. This configuration significantly reduces dopant encroachment and, as a consequence, reduces junction leakage. | 10-02-2008 |
20080290380 | SEMICONDUCTOR DEVICE WITH RAISED SPACERS - A semiconductor device includes a substrate and a gate formed on the substrate. A gate spacer is formed next to the gate. The gate spacer has a height greater than the height of the gate. A method of forming a semiconductor device includes providing a substrate with a gate layer. A hard mask layer is formed over the gate layer, and both layers are then etched using a pattern, forming a gate and a hard mask. A spacer layer is then deposited over the substrate, gate, and hard mask. The spacer layer is etched to form a gate spacer next to the gate. The hard mask is then removed. | 11-27-2008 |
20090020757 | Flash Anneal for a PAI, NiSi Process - A structure and a method for mitigation of the damage arising in the source/drain region of a MOSFET is presented. A substrate is provided having a gate structure comprising a gate oxide layer and a gate electrode layer, and a source and drain region into which impurity ions have been implanted. A PAI process generates an amorphous layer within the source and drain region. A metal is deposited and is reacted to create a silicide within the amorphous layer, without exacerbating existing defects. Conductivity of the source and drain region is then recovered by flash annealing the substrate. | 01-22-2009 |
Patent application number | Description | Published |
20120025323 | SPACER STRUCTURES OF A SEMICONDUCTOR DEVICE - The disclosure relates to spacer structures of a semiconductor device. An exemplary structure for a semiconductor device comprises a substrate having a first active region and a second active region; a plurality of first gate electrodes having a gate pitch over the first active region, wherein each first gate electrode has a first width; a plurality of first spacers adjoining the plurality of first gate electrodes, wherein each first spacer has a third width; a plurality of second gate electrodes having the same gate pitch as the plurality of first gate electrodes over the second active region, wherein each second gate electrode has a second width greater than the first width; and a plurality of second spacers adjoining the plurality of second gate electrodes, wherein each second spacer has a fourth width less than the third width. | 02-02-2012 |
20130029482 | SPACER STRUCTURES OF A SEMICONDUCTOR DEVICE - The disclosure relates to spacer structures of a semiconductor device. An exemplary structure for a semiconductor device comprises a substrate having a first active region and a second active region; a plurality of first gate electrodes having a gate pitch over the first active region, wherein each first gate electrode has a first width; a plurality of first spacers adjoining the plurality of first gate electrodes, wherein each first spacer has a third width; a plurality of second gate electrodes having the same gate pitch as the plurality of first gate electrodes over the second active region, wherein each second gate electrode has a second width greater than the first width; and a plurality of second spacers adjoining the plurality of second gate electrodes, wherein each second spacer has a fourth width less than the third width. | 01-31-2013 |
20130056837 | SELF-ALIGNED INSULATED FILM FOR HIGH-K METAL GATE DEVICE - A method of making an integrated circuit includes providing a semiconductor substrate and forming a gate dielectric over the substrate, such as a high-k dielectric. A metal gate structure is formed over the semiconductor substrate and the gate dielectric and a thin dielectric film is formed over that. The thin dielectric film includes oxynitride combined with metal from the metal gate. The method further includes providing an interlayer dielectric (ILD) on either side of the metal gate structure. | 03-07-2013 |
20130099323 | METAL GATE STRUCTURE OF A SEMICONDUCTOR DEVICE - The invention relates to integrated circuit fabrication, and more particularly to a metal gate structure. An exemplary structure for a CMOS semiconductor device comprises a substrate comprising an isolation region surrounding and separating a P-active region and an N-active region; a P-metal gate electrode over the P-active region and extending over the isolation region, wherein the P-metal gate electrode comprises a P-work function metal and an oxygen-containing TiN layer between the P-work function metal and substrate; and an N-metal gate electrode over the N-active region and extending over the isolation region, wherein the N-metal gate electrode comprises an N-work function metal and a nitrogen-rich TiN layer between the N-work function metal and substrate, wherein the nitrogen-rich TiN layer connects to the oxygen-containing TiN layer over the isolation region. | 04-25-2013 |
20130256805 | METAL GATE SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THEREOF - A method of semiconductor fabrication including forming a first work function metal layer on a first region of the substrate and forming a metal layer on the first work function metal layer and on a second region of the substrate. A dummy layer is formed on the metal layer. The layers are then patterned to form a first gate structure in the first region and a second gate structure in the second region of the substrate. The dummy layer is then removed to expose the metal layer, which is treated. The treatment may be an oxygen treatment that allows the metal layer to function as a second work function layer. | 10-03-2013 |
20140017886 | SPACER STRUCTURES OF A SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device includes forming a first set of gate electrodes over a substrate, adjacent gate electrodes of the first set of gate electrodes being separated by a first gap width, and having a first gate width. The method includes forming a second set of gate electrodes over the substrate, adjacent gate electrodes of the second set of gate electrodes being separated by a second gap width less than the first gap width, and having a second gate width greater than the first gate width. The method further includes forming a first set of spacer structures on sidewalls of the first and second sets of gate electrodes. The method further includes forming a second set of spacer structures abutting the first set of spacer structures and removing a subset of the second set of spacer structures over the sidewalls of the second set of gate electrodes. | 01-16-2014 |
20140299937 | SPACER STRUCTURES OF A SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device includes forming a first set of gate electrodes over a substrate, adjacent gate electrodes of the first set of gate electrodes being separated by a first gap width. Each gate electrode of the first set of gate electrodes has a first gate width. The method further includes forming a second set of gate electrodes over the substrate, adjacent gate electrodes of the second set of gate electrodes being separated by a second gap width less than the first gap width. Each gate electrode of the second set of gate electrodes has a second gate width greater than the first gate width. | 10-09-2014 |
20140367802 | SELF-ALIGNED INSULATED FILM FOR HIGH-K METAL GATE DEVICE - An integrated circuit includes a semiconductor substrate, a gate dielectric over the substrate, a metal gate structure over the semiconductor substrate and the gate dielectric, a dielectric film on the metal gate structure, the dielectric film comprising oxynitride combined with metal from the metal gate, and an interlayer dielectric (ILD) on either side of the metal gate structure. | 12-18-2014 |
20140374835 | METAL GATE SEMICONDUCTOR DEVICE - A semiconductor device including a first gate structure associated with a first type of transistor and a second gate structure of a second type of transistor. The first gate structure includes a capping layer, a first metal layer having a first type of work function on the capping layer, and a second metal layer having a second type of work function, overlying the first metal layer and a fill layer on the second metal layer. The second type of work function is different than the first type of work function. The second gate structure includes the gate dielectric and the second metal layer formed on the gate dielectric, and the fill layer on the second metal layer. | 12-25-2014 |