Patent application number | Description | Published |
20090294969 | SEMICONDUCTOR CONTACT FORMATION SYSTEM AND METHOD - The present invention is a semiconductor contact formation system and method. Contact insulation regions are formed with multiple etch stop sublayers that facilitate formation of contacts. This contact formation process provides relatively small substrate connections while addressing critical lithographic printing limitation concerns in forming contact holes with small dimensions. In one embodiment, a multiple etch stop insulation layer comprising multiple etch stop layers is deposited. A contact region is formed in the multiple etch stop insulation layer by selectively removing (e.g., etching) some of the multiple etch stop insulation layer. In one embodiment, a larger portion of the multiple etch stop insulation layer is removed close to the metal layer and a smaller portion is removed closer to the substrate. The different contact region widths are achieved by performing multiple etching processes controlled by the multiple etch stop layers in the multiple etch stop insulation layer and spacer formation to shrink contact size at a bottom portion. Electrical conducting material (e.g., tungsten) is deposited in the contact region. | 12-03-2009 |
20100120239 | MEMORY DEVICE ETCH METHODS - A method of manufacturing a memory device forms a first dielectric layer over a substrate, forms a charge storage layer over the first dielectric layer, forms a second dielectric layer over the charge storage layer, and forms a control gate layer over the second dielectric layer. The method also forms a hard mask layer over the control gate layer, forms a bottom anti-reflective coating (BARC) layer over the hard mask layer, and provides an etch chemistry that includes tetrafluoromethane (CF | 05-13-2010 |
20100264519 | GATE TRIM PROCESS USING EITHER WET ETCH OR DRY ETCH APPRAOCH TO TARGET CD FOR SELECTED TRANSISTORS - Disclosed are methods and devices for targeting CD of selected transistors in a semiconductor device. Varying CD is done by forming hard mask lines in a hard mask layer that have varying amounts of spacer material associated therewith. Hard mask lines corresponding to selected transistors are either left covered or uncovered by a resist applied over the hard mask layer. Then, spacer material is selectively removed from the hard mask lines to vary the width of hard mask lines and associated side wall spacers. A gate layer is then etched through the spaces in the hard mask lines to form gate lines having varying widths and targeted CD. | 10-21-2010 |
20110037115 | SYSTEM AND METHOD FOR IMPROVING MESA WIDTH IN A SEMICONDUCTOR DEVICE - A method for forming a memory device is provided. A nitride layer is formed over a substrate. The nitride layer and the substrate are etched to form a trench. The nitride layer is trimmed on opposite sides of the trench to widen the trench within the nitride layer. The trench is filled with an oxide material. The nitride layer is stripped from the memory device, forming a mesa above the trench. | 02-17-2011 |
20110195578 | PLANAR CELL ON CUT USING IN-SITU POLYMER DEPOSITION AND ETCH - A method and manufacture for charge storage layer separation is provided. A layer, such as a polymer layer, is deposited on top of an ONO layer so that the polymer layer is planarized, or approximately planarized. The ONO includes at least a first region and a second region, where the first region is higher than the second region. For example, the first region may be the portion of the ONO that is over the source/drain region, and the second region may be the portion of the ONO that is over the shallow trench. Etching is performed on the polymer layer to expose the first region of the ONO layer, leaving the second region of the ONO unexposed. The etching continues to occur to etch the exposed ONO at the first region so that the ONO layer is etched away in the first region and the second region remains unexposed. | 08-11-2011 |
20120032308 | GATE TRIM PROCESS USING EITHER WET ETCH OR DRY ETCH APPROACH TO TARGET CD FOR SELECTED TRANSISTORS - Disclosed are methods and devices for targeting CD of selected transistors in a semiconductor device. Varying CD is done by forming hard mask lines in a hard mask layer that have varying amounts of spacer material associated therewith. Hard mask lines corresponding to selected transistors are either left covered or uncovered by a resist applied over the hard mask layer. Then, spacer material is selectively removed from the hard mask lines to vary the width of hard mask lines and associated side wall spacers. A gate layer is then etched through the spaces in the hard mask lines to form gate lines having varying widths and targeted CD. | 02-09-2012 |
20120139023 | METHOD AND APPARATUS FOR NAND MEMORY WITH RECESSED SOURCE/DRAIN REGION - A method and apparatus for a flash memory is provided. A NAND flash memory array includes a cell body, a first selective gate, and a first edge line. The cell body includes recessed doped source/drain region between the first selective gate and the first edge word line. | 06-07-2012 |
20120142175 | DUAL SPACER FORMATION IN FLASH MEMORY - A method and manufacture for memory device fabrication is provided. In one embodiment, at least one oxide-nitride spacer is formed as follows. An oxide layer is deposited over a flash memory device such that the deposited oxide layer is at least 250 Angstroms thick. The flash memory device includes a substrate and dense array of word line gates with gaps between each of the word lines gate in the dense array. Also, the deposited oxide layer is deposited such that it completely gap-fills the gaps between the word line gates of the dense array of word line gates. Next, a nitride layer is depositing over the oxide layer. Then, the nitride layer is etched until the at least a portion of the oxide layer is exposed. Next, the oxide layer is etched until at least a portion of the substrate is exposed. | 06-07-2012 |
20120241871 | INTEGRATING TRANSISTORS WITH DIFFERENT POLY-SILICON HEIGHTS ON THE SAME DIE - A method of fabricating an integrated circuit including a first region and a second region each having different poly-silicon gate structures is provided. The method includes depositing a first poly-silicon layer over the first and the second region and depositing, within the second region, an oxide layer over the first poly-silicon layer. A second poly-silicon layer is deposited over the first poly-silicon layer and the oxide region. A portion of the second poly-silicon layer that lies over the oxide region is then stripped away. | 09-27-2012 |
20130130487 | Integrated Circuit with Metal and Semi-Conducting Gate - A method for forming an integrated circuit system is provided including forming a semi-conducting layer over a substrate, forming a spacer stack having a gap filler adjacent to the semi-conducting layer and a inter-layer dielectric over the gap filler, forming a transition layer having a recess over the semi-conducting layer and adjacent to the spacer stack, and forming a metal layer in the recess. | 05-23-2013 |
20130140720 | VOID FREE INTERLAYER DIELECTRIC - A method of manufacturing a non-volatile memory device includes forming a number of memory cells. The method also includes depositing a first dielectric layer over the memory cells, where the first dielectric layer is a conformal layer having a substantially uniform thickness. The method further includes depositing a second dielectric layer over the first dielectric layer. Together, the first and second dielectric layers form an interlayer dielectric without voids. | 06-06-2013 |
20140042514 | CONTACTS FOR SEMICONDUCTOR DEVICES - A memory device includes a number of memory cells and a dielectric layer formed over the memory cells. The memory device also includes contacts formed in the dielectric layer and spacers formed adjacent the side surfaces of the contacts. The spacers may inhibit leakage currents from the contacts. | 02-13-2014 |
20140097497 | Spacer Design to Prevent Trapped Electrons - Charge-trapping field effect transistors may be formed into an array on a wafer suitable to be a NAND memory device. A thick oxide layer is applied over the gates to ensure that the gap between the gates is filled. The filled gap substantially prevents nitride from being trapped, which could otherwise decrease the yield of the devices. This technique, and its variations, are useful for a range of semiconductor devices. | 04-10-2014 |
20140117435 | INTEGRATING TRANSISTORS WITH DIFFERENT POLY-SILICON HEIGHTS ON THE SAME DIE - A method of fabricating an integrated circuit including a first region and a second region each having different poly-silicon gate structures is provided. The method includes depositing a first poly-silicon layer over the first and the second region and depositing, within the second region, an oxide layer over the first poly-silicon layer. A second poly-silicon layer is deposited over the first poly-silicon layer and the oxide region. A portion of the second poly-silicon layer that lies over the oxide region is then stripped away. | 05-01-2014 |