Patent application number | Description | Published |
20130309829 | Method of Forming a Semiconductor Device - A semiconductor device having dislocations and a method of fabricating the semiconductor device is disclosed. The exemplary semiconductor device and method for fabricating the semiconductor device enhance carrier mobility. The method includes providing a substrate having an isolation feature therein and two gate stacks overlying the substrate, wherein one of the gate stacks is atop the isolation feature. The method further includes performing a pre-amorphous implantation process on the substrate. The method further includes forming a stress film over the substrate. The method also includes performing an annealing process on the substrate and the stress film. | 11-21-2013 |
20140151762 | Semiconductor Device and Method of Forming the Same - A method of forming a semiconductor device includes forming a NMOS gate structure over a substrate. The method further includes forming an amorphized region in the substrate adjacent to the NMOS gate structure. The method also includes forming a lightly doped source/drain (LDD) region in the amorphized region. The method further includes depositing a stress film over the NMOS gate structure, performing an annealing process, and removing the stress film. | 06-05-2014 |
20140187011 | Methods for Forming FinFETs with Self-Aligned Source/Drain - A method includes forming a gate stack to cover a middle portion of a semiconductor fin, and doping an exposed portion of the semiconductor fin with an n-type impurity to form an n-type doped region. At least a portion of the middle portion is protected by the gate stack from receiving the n-type impurity. The method further includes etching the n-type doped region using chlorine radicals to form a recess, and performing an epitaxy to re-grow a semiconductor region in the recess. | 07-03-2014 |
20140187013 | Methods for Forming FinFETs Having Multiple Threshold Voltages - A method includes forming a first and a second gate stack to cover a first and a second middle portion of a first and a second semiconductor fin, respectively, and performing implantations to implant exposed portions of the first and the second semiconductor fins to form a first and a second n-type doped region, respectively. A portion of each of the first and the second middle portions is protected from the implantations. The first n-type doped region and the second n-type doped region have different gate proximities from edges of the first gate stack and the second stack, respectively. The first and the second n-type doped regions are etched using chlorine radicals to form a first and a second recess, respectively. An epitaxy is performed to re-grow a first semiconductor region and a second semiconductor region in the first recess and the second recess, respectively. | 07-03-2014 |