Patent application number | Description | Published |
20080220609 | Methods of Forming Mask Patterns on Semiconductor Wafers that Compensate for Nonuniform Center-to-Edge Etch Rates During Photolithographic Processing - Methods of forming integrated circuit devices include steps to selectively widen portions of a mask pattern extending adjacent an outer edge of a semiconductor wafer. These steps to selectively widen portions of the mask pattern are performed so that more uniform center-to-edge critical dimensions (CD) can be achieved when the mask pattern is used to support photolithographically patterning of underlying layers (e.g., insulating layers, antireflective coatings, etc.). | 09-11-2008 |
20080224228 | CAPACITOR TOP PLATE OVER SOURCE/DRAIN TO FORM A 1T MEMORY DEVICE - A method and structure for a memory device, such as a 1T-SRAM, having a capacitor top plate directly over a doped bottom plate region. An example device comprises the following. An isolation film formed as to surround an active area on a substrate. A gate dielectric and gate electrode formed over a portion of the active area. A source element and a drain element in the substrate adjacent to the gate electrode. The drain element is comprised of a drain region and a bottom plate region. The drain region is between the bottom plate region and the gate structure. A capacitor dielectric and a capacitor top plate are over at least portions of the bottom plate region. | 09-18-2008 |
20090146262 | INTEGRATED CIRCUIT SYSTEM EMPLOYING SELECTIVE EPITAXIAL GROWTH TECHNOLOGY - An integrated circuit system that includes: providing a substrate; depositing a dielectric on the substrate; depositing an isolation dielectric on the dielectric; forming a trench through the isolation dielectric and the dielectric to expose the substrate; depositing a dielectric liner over the integrated circuit system; processing the dielectric liner to form a trench spacer; and depositing an epitaxial growth within the trench that includes a crystalline orientation that is substantially identical to the substrate. | 06-11-2009 |
20090206408 | NESTED AND ISOLATED TRANSISTORS WITH REDUCED IMPEDANCE DIFFERENCE - A processing layer, such as silicon, is formed on a metal silicide contact followed by a metal layer. The silicon and metal layers are annealed to increase the thickness of the metal silicide contact. By selectively increasing the thickness of silicide contacts, R | 08-20-2009 |
20090261448 | METHOD OF FORMING SHALLOW TRENCH ISOLATION STRUCTURES FOR INTEGRATED CIRCUITS - A method of forming shallow trench isolation (STI) structures using a multi-step etch process is disclosed. The first etch step is performed by selectively etching the substrate at a substantially higher etching rate than the mask layer to form preliminary openings having steep taper angles. The second etch step is performed by non-selectively etching the substrate to deepen the preliminary openings to form STI gaps with substantially flat bottoms. | 10-22-2009 |
20100009527 | INTEGRATED CIRCUIT SYSTEM EMPLOYING SINGLE MASK LAYER TECHNIQUE FOR WELL FORMATION - A method for manufacturing an integrated circuit system that includes: providing a substrate; forming a mask layer over the substrate; implanting a first well through an opening in the mask layer into the substrate; and implanting a second well through the mask layer and the opening via a single implant into the substrate. | 01-14-2010 |
20100148269 | TUNABLE SPACERS FOR IMPROVED GAPFILL - A device that includes a substrate with an active region is disclosed. The device includes a gate disposed in the active region and tunable sidewall spacers on sidewalls of the gate. A profile of the tunable sidewall spacers includes upper and lower portions in which width of the spacers in the upper portion is reduced at a greater rate than the lower portion. | 06-17-2010 |
20100187587 | MEMORY CELL STRUCTURE AND METHOD FOR FABRICATION THEREOF - A memory cell includes a substrate, an access transistor and a storage capacitor. The access transistor comprising a gate stack disposed on the substrate, and a first and second diffusion region located on a first and second opposing sides of the gate stack. The storage capacitor comprises a first capacitor plate comprising a portion embedded within the substrate below the first diffusion region, a second capacitor plate and a capacitor dielectric sandwiched between the embedded portion of the first capacitor plate. At least a portion of the first diffusion region forms the second capacitor plate. | 07-29-2010 |
20100301424 | NESTED AND ISOLATED TRANSISTORS WITH REDUCED IMPEDANCE DIFFERENCE - A processing layer, such as silicon, is formed on a metal silicide contact followed by a metal layer. The silicon and metal layers are annealed to increase the thickness of the metal silicide contact. By selectively increasing the thickness of silicide contacts, R | 12-02-2010 |