| Patent application number | Description | Published |
|---|
| 20080224225 | MOS transistors with selectively strained channels - The channels of first and second CMOS transistors can be selectively stressed. A gate structure of the first transistor includes a stressor that produces stress in the channel of the first transistor. A gate structure of the second transistor is disposed in contact with a layer of material that produces stress in the channel of the second transistor. | 09-18-2008 |
| 20080224227 | BiCMOS performance enhancement by mechanical uniaxial strain and methods of manufacture - A BiCMOS device with enhanced performance by mechanical uniaxial strain is provided. A first embodiment of the present invention includes an NMOS transistor, a PMOS transistor, and a bipolar transistor formed on different areas of the substrate. A first contact etch stop layer with tensile stress is formed over the NMOS transistor, and a second contact etch stop layer with compressive stress is formed over the PMOS transistor and the bipolar transistor, allowing for an enhancement of each device. Another embodiment has, in addition to the stressed contact etch stop layers, strained channel regions in the PMOS transistor and the NMOS transistor, and a strained base in the BJT. | 09-18-2008 |
| 20080277735 | MOS devices having elevated source/drain regions - A semiconductor structure includes a semiconductor substrate; a gate dielectric over the semiconductor substrate; a gate electrode over the gate dielectric; a deep source/drain region adjacent the gate electrode; a silicide region over the deep source/drain region; and an elevated metallized source/drain region between the silicide region and the gate electrode. The elevated metallized source/drain region adjoins the silicide region. | 11-13-2008 |
| 20080290421 | Contact barrier structure and manufacturing methods - A semiconductor structure includes a semiconductor substrate; a gate dielectric over the semiconductor substrate; a gate electrode over the gate dielectric; a source/drain region adjacent the gate dielectric; a silicide region on the source/drain region; a metal layer on top of, and physical contacting, the silicide region; an inter-layer dielectric (ILD) over the metal layer; and a contact opening in the ILD. The metal layer is exposed through the contact opening. The metal layer further extends under the ILD. The semiconductor structure further includes a contact in the contact opening. | 11-27-2008 |
| 20080315321 | System and Method for Forming a Semiconductor Device Source/Drain Contact - The present invention discloses a semiconductor source/drain contact structure, which comprises a substrate, a source/drain region disposed in the substrate, at least one non-silicided conductive layer including a barrier layer disposed over and in contact with the source/ drain region, and one or more contact hole filling metals disposed over and in contact with the at least one non-silicided conductive layer, wherein a first contact area between the at least one non-silicided conductive layer and the source/drain region is substantially larger than a second contact area between the one or more contact hole filling metals and the at least one non-silicided conductive layer. | 12-25-2008 |
| 20090075442 | Metal Stress Memorization Technology - A semiconductor device and method for manufacturing a tensile strained NMOS and a compressive strained PMOS transistor pair, wherein a stressor material is sacrificial is disclosed. The method provides for a substrate, which includes a source/drain for an NMOS transistor, and a PMOS transistor. A first barrier layer is formed on the substrate and a first stressor material is formed on the first barrier layer. The first barrier layer is selectively removed from the PMOS transistor. The substrate is flash annealed and the remaining first stressor material and barrier layer is removed from the substrate. | 03-19-2009 |
| 20090117695 | BiCMOS Performance Enhancement by Mechanical Uniaxial Strain and Methods of Manufacture - A BiCMOS device with enhanced performance by mechanical uniaxial strain is provided. A first embodiment of the present invention includes an NMOS transistor, a PMOS transistor, and a bipolar transistor formed on different areas of the substrate. A first contact etch stop layer with tensile stress is formed over the NMOS transistor, and a second contact etch stop layer with compressive stress is formed over the PMOS transistor and the bipolar transistor, allowing for an enhancement of each device. Another embodiment has, in addition to the stressed contact etch stop layers, strained channel regions in the PMOS transistor and the NMOS transistor, and a strained base in the BJT. | 05-07-2009 |
| 20100167485 | Contact Barrier Structure and Manufacturing Methods - A semiconductor structure includes a semiconductor substrate; a gate dielectric over the semiconductor substrate; a gate electrode over the gate dielectric; a source/drain region adjacent the gate dielectric; a silicide region on the source/drain region; a metal layer on top of, and physical contacting, the silicide region; an inter-layer dielectric (ILD) over the metal layer; and a contact opening in the ILD. The metal layer is exposed through the contact opening. The metal layer further extends under the ILD. The semiconductor structure further includes a contact in the contact opening. | 07-01-2010 |
