Patent application number | Description | Published |
20110068405 | FIN FIELD EFFECT TRANSISTOR - An exemplary structure for the fin field effect transistor comprises a substrate comprising a major surface; a plurality of fin structures protruding from the major surface of the substrate, wherein each fin structure comprises an upper portion and a lower portion separated at a transition location at where the sidewall of the fin structure is at an angle of 85 degrees to the major surface of the substrate, wherein the upper portion has sidewalls that are substantially perpendicular to the major surface of the substrate and a top surface having a first width, wherein the lower portion has tapered sidewalls on opposite sides of the upper portion and a base having a second width larger than the first width; and a plurality of isolation structures between the fin structures, wherein each isolation structure extends from the major surface of the substrate to a point above the transition location. | 03-24-2011 |
20110233679 | INTEGRATED CIRCUIT INCLUDING FINFETS AND METHODS FOR FORMING THE SAME - An integrated circuit including a plurality of Fin field effect transistors (FINFETs) is provided. The integrated circuit includes a plurality of fin-channel bodies over a substrate. The fin-channel bodies include a first fin-channel body and a second fin-channel body. A gate structure is disposed over the fin-channel bodies. At least one first source/drain (S/D) region of a first FINFET is adjacent the first fin-channel body. At least one second source/drain (S/D) region of a second FINFET is adjacent the second fin-channel body. The at least one first S/D region is electrically coupled with the at least one second S/D region. The at least one first and second S/D regions are substantially free from including any fin structure. | 09-29-2011 |
20120009690 | IN-SITU SPECTROMETRY - The present disclosure provides a system for in-situ spectrometry. The system includes a wafer-cleaning machine that cleans a surface of a semiconductor wafer using a cleaning solution. The system also includes a spectrometry machine that is coupled to the wafer-cleaning machine. The spectrometry machine receives a portion of the cleaning solution from the wafer-cleaning machine. The portion of the cleaning solution collects particles from the wafer during the cleaning. The spectrometry machine is operable to analyze a particle composition of a portion of the wafer based on the portion of the cleaning solution, while the wafer remains in the wafer-cleaning machine during the particle composition analysis. | 01-12-2012 |
20120091538 | FINFET AND METHOD OF FABRICATING THE SAME - The disclosure relates to a fin field effect transistor (FinFET). An exemplary structure for a FinFET comprises a substrate comprising a top surface; a first insulation region and a second insulation region over the substrate top surface comprising tapered top surfaces; a fin of the substrate extending above the substrate top surface between the first and second insulation regions, wherein the fin comprises a recessed portion having a top surface lower than the tapered top surfaces of the first and second insulation regions, wherein the fin comprises a non-recessed portion having a top surface higher than the tapered top surfaces; and a gate stack over the non-recessed portion of the fin. | 04-19-2012 |
20130062669 | SILICIDE FORMATION AND ASSOCIATED DEVICES - Improved silicide formation and associated devices are disclosed. An exemplary method includes providing a semiconductor material having spaced source and drain regions therein, forming a gate structure interposed between the source and drain regions, performing a gate replacement process on the gate structure to form a metal gate electrode therein, forming a hard mask layer over the metal gate electrode, forming silicide layers on the respective source and drain regions in the semiconductor material, removing the hard mask layer to expose the metal gate electrode, and forming source and drain contacts, each source and drain contact being conductively coupled to a respective one of the silicide layers. | 03-14-2013 |
20130228865 | FIN FIELD EFFECT TRANSISTOR - A FinFET is described, the FinFET includes a substrate including a top surface and a first insulation region and a second insulation region over the substrate top surface comprising tapered top surfaces. The FinFET further includes a fin of the substrate extending above the substrate top surface between the first and second insulation regions, wherein the fin includes a recessed portion having a top surface lower than the tapered top surfaces of the first and second insulation regions, wherein the fin includes a non-recessed portion having a top surface higher than the tapered top surfaces. The FinFET further includes a gate stack over the non-recessed portion of the fin. | 09-05-2013 |
20130280899 | SILICIDE FORMATION AND ASSOCIATED DEVICES - Improved silicide formation and associated devices are disclosed. An exemplary method includes providing a semiconductor material having spaced source and drain regions therein, forming a gate structure interposed between the source and drain regions, performing a gate replacement process on the gate structure to form a metal gate electrode therein, forming a hard mask layer over the metal gate electrode, forming silicide layers on the respective source and drain regions in the semiconductor material, removing the hard mask layer to expose the metal gate electrode, and forming source and drain contacts, each source and drain contact being conductively coupled to a respective one of the silicide layers. | 10-24-2013 |
20140001574 | IMPROVED SILICIDE FORMATION AND ASSOCIATED DEVICES | 01-02-2014 |
20140179077 | METHOD OF FORMING SEMICONDUCTOR DEVICE INCLUDING SILICIDE LAYERS - A method includes forming a gate structure on a semiconductor material region, wherein the gate structure includes spacer elements abutting a gate electrode layer. The gate electrode layer is etched to provide a recess. A hard mask layer is formed over the gate electrode layer in the recess. Silicide layers are then formed on a source region and a drain region disposed in the semiconductor material region, while the hard mask is disposed over the gate electrode layer. A source contact and a drain contact is then provided, each source and drain contact being conductively coupled to a respective one of the silicide layers. | 06-26-2014 |
20140327091 | FIN FIELD EFFECT TRANSISTOR - A fin field effect transistor including a first insulation region and a second insulation region over a top surface of a substrate. The first insulation region includes tapered top surfaces, and the second insulation region includes tapered top surfaces. The fin field effect transistor further includes a fin extending above the top surface between the first insulation region and the second insulation region. The fin includes a first portion having a top surface below the tapered top surfaces of the first insulation region. The fin includes a second portion having a top surface above the tapered top surfaces of the first insulation region. | 11-06-2014 |