Patent application number | Description | Published |
20110115012 | METHOD FOR FABRICATING AN ENLARGED OXIDE-NITRIDE-OXIDE STRUCTURE FOR NAND FLASH MEMORY SEMICONDUCTOR DEVICES - A method of processing a flash memory device provides a semiconductor substrate including a surface region and forming a gate dielectric layer overlying the surface region. The method forms a floating gate layer having a thickness and including a first floating gate structure overlying a first portion of the gate dielectric layer and a second floating gate structure overlying a second portion of the gate dielectric layer. The method forms a trench region interposed between the first and second floating gate structures and extending through the entire thickness and through a portion of the surface region into a depth of the substrate. The method fills the entire depth of the trench region in the substrate and a portion of the trench region over the substrate using a dielectric fill material. The method forms an oxide on nitride on oxide (ONO) layer overlying the first and second floating gate structures and the dielectric material and a control gate overlying the ONO layer. | 05-19-2011 |
20120142150 | METHOD FOR FORMING METAL GATE AND MOS TRANSISTOR - The invention provides a method for forming a metal gate and a method for forming a MOS transistor. The method for forming a metal gate includes: providing a substrate; forming a sacrificial oxide layer and a polysilicon gate on the substrate; forming a silicon oxide layer on sidewalls of the sacrificial oxide layer and the polysilicon gate; forming a stop layer that covers the substrate; removing a part of the stop layer in the spacers; forming a second interlayer dielectric layer that covers the first interlayer dielectric layer, the spacers and the polysilicon gate; polishing the second interlayer dielectric layer to expose the spacers and the polysilicon gate; removing the polysilicon gate to form a trench; removing the sacrificial oxide layer in the trench; and forming a metal gate in the trench. The invention prevents from recesses and therefore metal bridge and metal residuals in the recesses. | 06-07-2012 |
20120142254 | POLISHING APPARATUS AND EXCEPTION HANDLING METHOD THEREOF - A polishing apparatus and exception handling method thereof is disclosed, the exception handling method of polishing apparatus includes: sending an alarm signal when an alarm is generated because of an exception during polishing; and processing a wafer in the polishing apparatus with organic acid solution according to the received alarm signal. The method and apparatus prevent the metal material from corrosion which causes device failure, when there is an alarm generated because of an exception which stops the apparatus during polishing. | 06-07-2012 |
20120164824 | METHOD FOR FABRICATING A HIGH-K METAL GATE MOS - A method is provided for fabricating a high-K metal gate MOS device. The method includes providing a semiconductor substrate having a surface region, a gate oxide layer on the surface region, a sacrificial gate electrode on the gate oxide layer, and a covering layer on the sacrificial gate electrode, an inter-layer dielectric layer on the semiconductor substrate and the sacrificial gate electrode. The method also includes planarizing the inter-layer dielectric layer to expose a portion of the covering layer atop the sacrificial gate electrode, implanting nitrogen ions into the inter-layer dielectric layer until a depth of implantation is deeper than a thickness of the portion of the covering layer atop the sacrificial gate electrode and polishing the inter-layer dielectric layer to expose a surface of the sacrificial gate electrode, removing the sacrificial gate electrode, and depositing a metal gate. | 06-28-2012 |
20120164922 | METHOD FOR CLEANING A POLISHING PAD - A method for cleaning a polishing pad includes dispensing a first amount of deionized water on the polishing pad; cleaning the polishing pad with an acidity/alkalinity solution after dispensing the first amount of deionized water on the polishing pad; rinsing the polishing pad with a second amount of deionized water after cleaning the polishing pad with the acidity/alkalinity solution; removing the acidity/alkalinity solution from the polishing pad. In a subsequent CMP process, the method includes polishing a GST material device for obtaining an improved performance of the GST material device. | 06-28-2012 |
20120164923 | POLISHING METHOD - A polishing method is disclosed, which includes: conditioning a polishing pad, after polishing metal material of a previous wafer; spraying organic acid solution to the polishing pad; spraying deionized water to the polishing pad; performing a water-removing treatment on the polishing pad; and spraying polishing liquid to the polishing pad and polishing metal material of a next wafer. The method can prevent scratches on the surface of metal material of wafers and improve yield rate. | 06-28-2012 |
20120171939 | CHEMICAL MECHANICAL POLISHING DEVICE AND POLISHING ELEMENT - A polishing element used in chemical mechanical polishing device includes a polishing plate for holding a wafer that is provided; a polishing pad arm, one end of the polishing pad arm being fixed, another end of the polishing pad arm holding a polishing pad, and the polishing pad arm driving the polishing pad for moving relatively to the wafer; the polishing pad moving relatively to the wafer with drive from the polishing pad arm, and the polishing pad arm ensuring the polishing pad contacting the wafer during movement; and a slurry supply route for supplying polishing slurry between the polishing pad and the wafer during polishing. The present invention also provides a chemical mechanical polishing device. It makes for realizing miniaturization of a chemical mechanical polishing device, saving polishing slurry and improving utilization rate of the polishing pad in the chemical mechanical polishing device to apply the present invention. | 07-05-2012 |
20120190278 | POLISHING METHOD AND POLISHING DEVICE - A polishing method includes: mounting a wafer on a fixed abrasive polishing pad located on a polishing platen; delivering a polishing slurry to the fixed abrasive polishing pad to polish the wafer; and adsorbing abrasive particles generated during the polishing process with an electrode. The electrode has a polarity opposite to a polarity of charges of the abrasive particles. A polishing device includes a polishing platen, a fixed abrasive polishing pad, a slurry pipeline and a polarity changer having an electrode. Therefore, the abrasive particles generated during the polishing process are removed, which prevents the wafer from being scratched, thereby increasing wafer yield and improving efficiency. | 07-26-2012 |
20120244792 | FIXED ABRASIVE PAD AND METHOD FOR FORMING THE SAME - A fixed abrasive pad includes a substrate and a plurality of discrete abrasive blocks attached thereon, wherein the abrasive blocks comprise a plurality of abrasive sub-layers, wherein the abrasive density of the sub-layers increases layer-by-layer from the top sub-layer to the bottom sub-layer according to a predetermined ratio. The predetermined ratio ranges from about 1.099 to about 1.124. | 09-27-2012 |
20120270343 | POLISHING METHOD AND METHOD FOR FORMING A GATE - A polishing method and a method for forming a gate are provided. The method includes forming a dummy gate on a semiconductor substrate including a sacrificial oxide layer and a polysilicon layer which covers the sacrificial oxide layer, forming spacers around the dummy gate, and successively forming a silicon nitride layer and a dielectric layer covering the silicon nitride layer. The method further includes polishing the dielectric layer until the silicon nitride layer is exposed, polishing the silicon nitride layer on a fixed abrasive pad until the polysilicon layer is exposed by using a polishing slurry with a PH value ranging from 10.5 to 11 and comprising an anionic surfactant or a zwitterionic surfactant. Additionally, the method includes forming an opening after removing the dummy gate, and forming a gate in the opening. The method eliminates potential erosion and dishing caused in the polishing of the silicon nitride layer. | 10-25-2012 |
20130105919 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME | 05-02-2013 |
20140332907 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device and a method for manufacturing the semiconductor device are provided. The semiconductor device uses an aluminum alloy, rather than aluminum, for a metal gate. Therefore, the surface of the high-k metal gate after the CMP is aluminum alloy rather than pure aluminum, which can greatly reduce defects, such as corrosion, pits and damage, in the metal gate and improve reliability of the semiconductor device. | 11-13-2014 |