| Patent application number | Description | Published |
|---|
| 20080246056 | SILICIDE FORMATION FOR eSiGe USING SPACER OVERLAPPING eSiGe AND SILICON CHANNEL INTERFACE AND RELATED PFET - Methods of forming a suicide in an embedded silicon germanium (eSiGe) source/drain region using a suicide prevention spacer overlapping an interface between the eSiGe and the silicon channel, and a related PFET with an eSiGe source/drain region and a compressive stress liner in close proximity to a silicon channel thereof, are disclosed. In one embodiment, a method includes providing a gate having a nitrogen-containing spacer adjacent thereto and an epitaxially grown silicon germanium (eSiGe) region adjacent to a silicon channel of the gate; removing the nitrogen-containing spacer that does not extend over the interface between the eSiGe source/drain region and the silicon channel; forming a single silicide prevention spacer about the gate, the single silicide prevention spacer overlapping the interface; and forming the silicide in the eSiGe source/drain region using the single silicide prevention spacer to prevent the silicide from forming in at least an extension area of the silicon channel. | 10-09-2008 |
| 20080303060 | Semiconductor devices and methods of manufacturing thereof - Semiconductor devices and methods of manufacturing thereof are disclosed. In a preferred embodiment, a method of manufacturing a semiconductor device includes providing a semiconductor wafer, forming a first material on the semiconductor wafer, and affecting the semiconductor wafer with a manufacturing process. The manufacturing process inadvertently causes a portion of the first material to be removed. The portion of the first material is replaced with a second material. | 12-11-2008 |
| 20090135655 | Embedded Flash Memory Devices on SOI Substrates and Methods of Manufacture Thereof - Flash memory device structures and methods of manufacture thereof are disclosed. The flash memory devices are manufactured on silicon-on-insulator (SOI) substrates. Shallow trench isolation (STI) regions and the buried oxide layer of the SOI substrate are used to isolate adjacent devices from one another. The methods of manufacture require fewer lithography masks and may be implemented in stand-alone flash memory devices, embedded flash memory devices, and system on a chip (SoC) flash memory devices. | 05-28-2009 |
| 20090294807 | Methods of Fabricating Transistors and Structures Thereof - Methods of fabricating transistors, semiconductor devices, and structures thereof are disclosed. In one embodiment, a method of fabricating a transistor includes forming a gate dielectric over a workpiece, and forming a gate over the gate dielectric. Sidewall spacers are formed over the gate dielectric and the gate, the sidewall spacers comprising germanium oxide (GeO or GeO | 12-03-2009 |
| 20090294866 | Transistor Fabrication Methods and Structures Thereof - Methods of fabricating transistors and semiconductor devices and structures thereof are disclosed. In one embodiment, a method of fabricating a transistor includes forming a gate dielectric over a workpiece, forming a gate over the gate dielectric, and forming a stress-inducing material over the gate, the gate dielectric, and the workpiece. Sidewall spacers are formed from the stress-inducing material on sidewalls of the gate and the gate dielectric. | 12-03-2009 |
| 20090294986 | Methods of Forming Conductive Features and Structures Thereof - Methods of forming features and structures thereof are disclosed. In one embodiment, a method of forming a feature includes forming a first material over a workpiece, forming a first pattern for a lower portion of the feature in the first material, and filling the first pattern with a sacrificial material. A second material is formed over the first material and the sacrificial material, and a second pattern for an upper portion of the feature is formed in the second material. The sacrificial material is removed. The first pattern and the second pattern are filled with a third material. | 12-03-2009 |
| 20100029072 | Methods of Forming Electrical Interconnects Using Thin Electrically Insulating Liners in Contact Holes - Methods of forming integrated circuit devices include forming an electrically insulating layer having a contact hole therein, on a substrate, and then depositing an electrically insulating liner onto a sidewall of the contact hole using an atomic layer deposition (ALD) technique. This electrically insulating liner, which may include gelatinous silica or silicon dioxide, for example, may be deposited to a thickness in a range from 40 Å to 100 Å. A portion of the electrically insulating liner is then removed from a bottom of the contact hole and a barrier metal layer is then formed on the electrically insulating liner and on a bottom of the contact hole. The step of forming the barrier metal layer may be followed by filling the contact hole with a metal interconnect. | 02-04-2010 |
| 20100096685 | Strained Semiconductor Device and Method of Making Same - In a method of making a semiconductor device, a gate dielectric is formed over the semiconductor body. A floating gate is formed over the gate dielectric, an insulating region over the floating gate, and a control gate over the insulating region. The gate dielectric, floating gate, insulating region, and control gate constitute a gate stack. A stress is caused in the gate stack, whereby the band gap of the gate dielectric is changed by the stress. | 04-22-2010 |
| 20100149882 | Methods of Operating Embedded Flash Memory Devices - Flash memory device structures and methods of manufacture thereof are disclosed. The flash memory devices are manufactured on silicon-on-insulator (SOI) substrates. Shallow trench isolation (STI) regions and the buried oxide layer of the SOI substrate are used to isolate adjacent devices from one another. The methods of manufacture require fewer lithography masks and may be implemented in stand-alone flash memory devices, embedded flash memory devices, and system on a chip (SoC) flash memory devices. | 06-17-2010 |
| 20100193867 | Silicided Semiconductor Structure and Method of Forming the Same - A preferred embodiment includes a method of manufacturing a fuse element that includes forming a polysilicon layer over a semiconductor structure, doping the polysilicon layer with carbon or nitrogen, depositing a metal over the polysilicon layer; and annealing the metal and polysilicon layer to form a silicide in an upper portion of the polysilicon layer. | 08-05-2010 |
| 20100297818 | Semiconductor Devices Having pFET with SiGe Gate Electrode and Embedded SiGe Source/Drain Regions and Methods of Making the Same - In a method of making a semiconductor device, a first gate stack is formed on a substrate at a pFET region, which includes a first gate electrode material. The source/drain regions of the substrate are etched at the pFET region and the first gate electrode material of the first gate stack is etched at the pFET region. The etching is at least partially selective against etching oxide and/or nitride materials so that the nFET region is shielded by a nitride layer (and/or a first oxide layer) and so that the spacer structure of the pFET region at least partially remains. Source/drain recesses are formed and at least part of the first gate electrode material is removed by the etching to form a gate electrode recess at the pFET region. A SiGe material is epitaxially grown in the source/drain recesses and in the gate electrode recess at the pFET region. The SMT effect is achieved from the same nitride nFETs mask. | 11-25-2010 |
| 20110006373 | Transistor Structure - Methods of fabricating transistors and semiconductor devices and structures thereof are disclosed. In one embodiment, a method of fabricating a transistor includes forming a gate dielectric over a workpiece, forming a gate over the gate dielectric, and forming a stress-inducing material over the gate, the gate dielectric, and the workpiece. Sidewall spacers are formed from the stress-inducing material on sidewalls of the gate and the gate dielectric. | 01-13-2011 |
