Patent application number | Description | Published |
20090061624 | METHOD OF FABRICATING INTEGRATED CIRCUIT WITH SMALL PITCH - A method of manufacturing an integrated circuit with a small pitch comprises providing a second material layer patterned to form at least two features with an opening between the features. The second material layer is formed over a first material layer and the first material layer is over a substrate. The method also comprises providing a first oxide layer to form a first sidewall surrounding each of the features, and providing a second oxide layer over the first sidewalls and the first material layer. A second sidewall is formed surrounding each of the features. The method further comprises providing a conductive layer over the second oxide layer and removing the conductive layer, the second sidewalls and the first material underneath the second sidewalls. | 03-05-2009 |
20110089480 | MEMORY AND MANUFACTURING METHOD THEREOF - A memory having isolated dual memory cells is provided. A first isolation wall and a second isolation wall are separately disposed between a source and a drain on a substrate. An isolation bottom layer and a polysilicon layer are orderly disposed on the substrate between the first and the second isolation walls. A first charge storage structure and a first gate are orderly disposed on the substrate between the first isolation wall and the source. A second charge storage structure and a second gate are orderly disposed on the substrate between the second isolation wall and the drain. A word line disposed on the polysilicon layer, the first gate, the second gate, the first isolation wall and the second isolation wall is electrically connected to the first gate, the second gate and the polysilicon layer. | 04-21-2011 |
20120074401 | TEST PATTERN FOR DETECTING PIPING IN A MEMORY ARRAY - A method of detecting manufacturing defects at a memory array may include disposing an active area of a first width in communication with a first conductive member of the memory array to define a grounded conductive member, disposing an isolation structure of a second width in communication with a second conductive member of the memory array to define a floating conductive member, and providing an alternating arrangement of floating and grounded conductive members including arranging a plurality of the grounded and floating conductive members adjacent to each other to define a sequence of alternating floating and grounded conductive members. A corresponding test device is also provided. | 03-29-2012 |
Patent application number | Description | Published |
20080299741 | Etching solution, method of surface modification of semiconductor substrate and method of forming shallow trench isolation - An etching solution, a method of surface modification of a semiconductor substrate and a method of forming shallow trench isolation are provided. The etching solution is used for surface modifying the semiconductor substrate. The etching solution includes an oxidant and an oxide remover. The semiconductor substrate is oxidized to a semiconductor oxide by the oxidant, and the oxide remover subtracts the semiconductor oxide. | 12-04-2008 |
20090023289 | CONDUCTOR REMOVAL PROCESS - A conductor removal process is described, which is applied to a substrate that has thereon a plurality of patterns and a blanket conductor layer covering the patterns. An upper portion of the blanket conductor layer entirely over the patterns is oxidized to form a dielectric layer. A CMP step is performed to remove the dielectric layer and a portion of the remaining conductor layer in turn and thereby expose the patterns. | 01-22-2009 |
20090061609 | METHODS OF FORMING NITRIDE READ ONLY MEMORY AND WORD LINES THEREOF - A method of forming word lines of a memory includes providing a substrate and forming a conductive layer on the substrate. A metal silicide layer is formed on the conductive layer, and a mask pattern is formed on the metal silicide layer. A mask liner covering the mask pattern and the surface of the metal silicide layer is formed on the substrate to shorten distances between the word line regions. An etching process is performed on the mask liner and the mask pattern until the partial surface of the metal silicide layer is exposed. The metal silicide layer and the conductive layer are etched to form word lines by utilizing the mask liner and the mask pattern as a mask. A silicon content of the metal silicide layer must be less than or equal to 2 for reducing a bridge failure rate between the word lines. | 03-05-2009 |
20090108331 | Memory and manufacturing method thereof - A memory having isolated dual memory cells is provided. A first isolation wall and a second isolation wall are separately disposed between a source and a drain on a substrate. An isolation bottom layer and a polysilicon layer are orderly disposed on the substrate between the first and the second isolation walls. A first charge storage structure and a first gate are orderly disposed on the substrate between the first isolation wall and the source. A second charge storage structure and a second gate are orderly disposed on the substrate between the second isolation wall and the drain. A word line disposed on the polysilicon layer, the first gate, the second gate, the first isolation wall and the second isolation wall is electrically connected to the first gate, the second gate and the polysilicon layer. | 04-30-2009 |
20100151657 | METHOD OF IMPROVING INTRINSIC GETTERING ABILITY OF WAFER - A method of improving the intrinsic gettering ability of a wafer is described. A first annealing step is performed to the wafer at a first temperature in an atmosphere containing at least one of oxygen gas and nitrogen gas. A second annealing step is performed to the wafer, at a second temperature higher than the first temperature, in the atmosphere. | 06-17-2010 |
20100178758 | METHODS FOR FABRICATING DIELECTRIC LAYER AND NON-VOLATILE MEMORY - The method for fabricating the dielectric layer of the present invention is described as follows. A substrate is provided in a chamber, wherein the chamber is a single-wafer LPCVD chamber. A silicon source gas, an oxidation source gas and a nitridation source gas are then introduced into the chamber, wherein a volumetric flow rate ratio of the oxidation source gas to a total amount of the oxidation source gas and the nitridation source gas is varied within a range of 0.0245 to 0.375. Afterwards, the dielectric layer with a dielectric constant within a range of 4.8 to 7.6 is formed on the substrate. | 07-15-2010 |
20100210085 | METHOD FOR FABRICATING NON-VOLATILE MEMORY - A method for fabricating a non-volatile memory of the invention includes providing a substrate, and a tunnel layer is formed on the substrate. A charge-trapping layer is formed on the tunnel layer using silane (SiH | 08-19-2010 |
20110175203 | INTEGRATED CIRCUIT WITH IMPROVED INTRINSIC GETTERING ABILITY - An integrated circuit with improved intrinsic gettering ability is described, having a bulk micro-defect (BMD) density of 3.85×10 | 07-21-2011 |
20120190198 | METHOD FOR IMPROVING FLATNESS OF A LAYER DEPOSITED ON POLYCRYSTALLINE LAYER - Described is a method for improving the flatness of a layer deposited on a doped polycrystalline layer, which includes reducing the grain size of the polycrystalline layer to decrease the out-diffusion amount of the dopant from the polycrystalline layer, and/or reducing the amount of the out-diffusing dopant on the surface of the polycrystalline layer. | 07-26-2012 |