Patent application number | Description | Published |
20090029547 | NOVEL LADDER POLY ETCHING BACK PROCESS FOR WORD LINE POLY PLANARIZATION - A method is disclosed for etching a polysilicon material in a manner that prevents formation of an abnormal polysilicon profile. The method includes providing a substrate with a word line and depositing a polysilicon layer over said substrate and word line. An organic bottom antireflective coating (BARC) layer is then deposited over said polysilicon layer. A ladder etch is performed to remove the BARC layer and a portion of the polysilicon layer. The ladder etch consists of a series of etch cycles, with each cycle including a breakthrough etch and a soft landing etch. The breakthrough and soft landing etches are performed using different etchant gases, and at different source and bias powers, pressures, gas flow rates, and periods of time. The ladder etch results in a smooth polysilicon surface without abrupt steps. | 01-29-2009 |
20090130814 | SEMICONDUCTOR METHODS - A method includes forming an amorphous carbon layer over a first dielectric layer formed over a substrate, forming a second dielectric layer over the amorphous carbon layer; and forming an opening within the amorphous carbon layer and second dielectric layer by a first etch process to partially expose a top surface of the first dielectric layer. A substantially conformal metal-containing layer is formed over the second dielectric layer and within the opening. The second dielectric layer and a portion of the metal-containing layer are removed. The amorphous carbon layer is removed by an oxygen-containing plasma process to expose a top surface of the first dielectric layer. An insulating layer is formed over the metal-containing layer, and a second metal-containing layer is formed over the insulating layer to form a capacitor. | 05-21-2009 |
20100091163 | Image Sensor Having Enhanced Backside Illumination Quantum Efficiency - A system and method for image sensing is disclosed. An embodiment comprises a substrate with a pixel region and a logic region. A first resist protect oxide (RPO) is formed over the pixel region, but not over the logic region. Silicide contacts are formed on the top of active devices formed in the pixel region, but not on the surface of the substrate in the pixel region, and silicide contacts are formed both on the top of active devices and on the surface of the substrate in the logic region. A second RPO is formed over the pixel region and the logic region, and a contact etch stop layer is formed over the second RPO. These layers help to reflect light back to the image sensor when light impinges the sensor from the backside of the substrate, and also helps prevent damage that occurs from overetching. | 04-15-2010 |
20110081766 | METHOD FOR DOPING A SELECTED PORTION OF A DEVICE - A method includes forming a protective layer with an opening over a substrate, thereafter implanting a dopant into a substrate region through the opening, the protective layer protecting a different substrate region, and reducing thickness of the protective layer. A different aspect includes etching a substrate to form a recess therein, thereafter implanting a dopant into a substrate region within the recess and through an opening in a protective layer provided over the substrate, and reducing thickness of the protective layer. Another aspect includes forming a protective layer over a substrate, forming photoresist having an opening over the protective layer, etching the protective layer through the opening to expose the substrate, etching the substrate to form a recess in the substrate, implanting a dopant into a substrate portion, the protective layer protecting a different substrate portion thereunder, and etching the protective layer to reduce its thickness. | 04-07-2011 |
20140061924 | Interconnect Structure and Method - An apparatus comprises an interlayer dielectric layer formed on a first side of a substrate, a first metallization layer formed over the interlayer dielectric layer, wherein the first metallization layer comprises a first metal line and a dielectric layer formed over the first metallization layer, wherein the dielectric layer comprises a metal structure having a bottom surface coplanr with a top surface of the first metal line. | 03-06-2014 |
20150041874 | MIM Capacitors with Improved Reliability - A capacitor and methods for forming the same are provided. The method includes forming a bottom electrode; treating the bottom electrode in an oxygen-containing environment to convert a top layer of the bottom electrode into a buffer layer; forming an insulating layer on the buffer layer; and forming a top electrode over the insulating layer. | 02-12-2015 |
20150235940 | Interconnect Structure and Method - An apparatus comprises an interlayer dielectric layer formed on a first side of a substrate, a first photo-sensitive dielectric layer formed over the interlayer dielectric layer, wherein the first photo-sensitive dielectric layer comprises a first metal structure and a second photo-sensitive dielectric layer formed over the first photo-sensitive dielectric, wherein the second photo-sensitive dielectric layer comprises a second metal structure having a bottom surface coplanar with a top surface of the first metal structure. | 08-20-2015 |
20150279886 | Image Sensor Having Enhanced Backside Illumination Quantum Efficiency - A system and method for image sensing is disclosed. An embodiment comprises a substrate with a pixel region and a logic region. A first resist protect oxide (RPO) is formed over the pixel region, but not over the logic region. Silicide contacts are formed on the top of active devices formed in the pixel region, but not on the surface of the substrate in the pixel region, and silicide contacts are formed both on the top of active devices and on the surface of the substrate in the logic region. A second RPO is formed over the pixel region and the logic region, and a contact etch stop layer is formed over the second RPO. These layers help to reflect light back to the image sensor when light impinges the sensor from the backside of the substrate, and also helps prevent damage that occurs from overetching. | 10-01-2015 |