Patent application number | Description | Published |
20130175598 | Damascene Word Line - The technology relates to a damascene word line for a three dimensional array of nonvolatile memory cells. Conductive lines such as silicon are formed over stacked nonvolatile memory structures. Word line trenches separate neighboring ones of the silicon lines. The silicon lines separated by the word line trenches are oxidized, making insulating surfaces in the word line trenches. Word lines are made in the word line trenches. | 07-11-2013 |
20130214340 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD OF THE SAME - A semiconductor structure and a manufacturing method of the same are provided. The semiconductor structure includes a substrate, a first stacked structure, and a first conductive layer. The first stacked structure is formed on the substrate and includes a conductive structure and an insulating structure, and the conductive structure is disposed adjacent to the insulating structure. The first conductive layer is formed on the substrate and surrounds two side walls and a part of the top portion of the first stacked structure for exposing a portion of the first stacked structure. | 08-22-2013 |
20130234210 | METHOD OF MANUFACTURING METAL SILICIDE AND SEMICONDUCTOR STRUCTURE USING THE SAME - A method of manufacturing a metal silicide is disclosed below. A substrate having a first region and a second region is proviced. A silicon layer is formed on the substrate. A planarization process is performed to make the silicon layer having a planar surface. A part of the silicon layer is removed to form a plurality of first gates on the first region and to form a plurality of second gates on the second region. The height of the first gates is greater than the height of the second gates, and top surfaces of the first gates and the second gates have the same height level. A dielectric layer covering the first gates and the second gates is formed and exposes the top surfaces of the first gates and the second gates. A metal silicide is formed on the top surfaces of the first gates and the second gates. | 09-12-2013 |
20130334575 | Damascene Word Line - The technology relates to a damascene word line for a three dimensional array of nonvolatile memory cells. Partly oxidized lines of material such as silicon are made over a plurality of stacked nonvolatile memory structures. Word line trenches are made in the partly oxidized lines, by removing the unoxidized lines from the intermediate parts of the partly oxidized lines, leaving the plurality of oxidized lines at the outer parts of the plurality of partly oxidized lines. Word lines are made in the word line trenches over the plurality of stacked nonvolatile memory structures. | 12-19-2013 |
20140042629 | SEMICONDUCTING MULTI-LAYER STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A semiconducting multi-layer structure comprising a plurality of first conductive layers, a plurality of first insulating layers and a second conductive layer is disclosed. The first conductive layers are separately disposed. Each of the first conductive layers has an upper surface, a bottom surface opposite to the upper surface and a lateral surface. The first insulating layers surround the peripherals of the first conductive layers. Each of the first insulating layers covers at least a part of the upper surface of each of the first conductive layers, at least a part of the bottom surface of each of the first conductive layers and the two lateral surface of each of the first conductive layers. The second conductive layer covers the first conductive layers and the first insulating layers. | 02-13-2014 |
20140054535 | SEMICONDUCTOR STRUCTURE WITH IMPROVED CAPACITANCE OF BIT LINE - A semiconductor structure with improved capacitance of bit lines includes a substrate, a stacked memory structure, a plurality of bit lines, a first stair contact structure, a first group of transistor structures and a first conductive line. The first stair contact structure is formed on the substrate and includes conductive planes and insulating planes stacked alternately. The conductive planes are separated from each other by the insulating planes for connecting the bit lines to the stacked memory structure by stairs. The first group of transistor structures is formed in a first bulk area where the bit lines pass through and then connect to the conductive planes. The first group of transistor structures has a first gate around the first bulk area. The first conductive line is connected to the first gate to control the voltage applied to the first gate. | 02-27-2014 |
20140103530 | THREE DIMENSIONAL STACKED SEMICONDUCTOR STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A three dimensional stacked semiconductor structure comprises a stack including plural oxide layers and conductive layers arranged alternately, at least a contact hole formed vertically to the oxide layers and the conductive layers, and extending to one of the conductive layers, an insulator formed at the sidewall of the contact hole, a conductor formed in the contact hole and connecting the corresponding conductive layer, and the corresponding conductive layer comprises a silicide. The silicide could be formed at edges or an entire body of the corresponding conductive layer. Besides the silicide, the corresponding conductive layer could, partially or completely, further comprise a conductive material connected to the conductor. The corresponding conductive layer which the contact hole extends to has higher conductivity than other conductive layers. Also, the 3D stacked semiconductor structure could be applied to a fan-out region of a 3D flash memory. | 04-17-2014 |
20140110766 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - A semiconductor structure has a second portion with an appendage on one side of the second portion and extruding along the longitudinal direction of the second portion. Moreover the semiconductor structure also has a gate line longitudinally parallel to the second portion, wherein the length of the gate line equals to the longitudinal length of the second portion. | 04-24-2014 |
20140124945 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD OF THE SAME - A semiconductor structure and a manufacturing method thereof are provided. The semiconductor structure includes a stacked structure, a plurality of first conductive blocks, a plurality of first conductive layers, a plurality of second conductive layers, and a plurality of conductive damascene structures. The stacked structure, comprising a plurality of conductive strips and a plurality of insulating strips, is formed on a substrate, and the conductive strips and the insulating strips are interlaced. The first conductive blocks are formed on the stacked structure. The first conductive layers and the second conductive layers are formed on two sidewalls of the stacked structure, respectively. The conductive damascene structures are formed on two sides of the stacked structure, wherein each of the first conductive blocks is electrically connected to each of the conductive damascene structures via each of the first conductive strips and each of the second conductive strips. | 05-08-2014 |
20140131838 | SEMICONDUCTOR STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor structure and a method for manufacturing the same are provided. The method comprises following steps. Semiconductor units are arranged on a substrate. A material layer is formed on the semiconductor units. A first patterned mask layer is formed on the semiconductor units. The first patterned mask layer has a mask opening corresponding to a portion of the semiconductor units and exposing the material layer. A portion of the material layer exposed by the mask opening is removed to remain a portion of the material layer on a sidewall of each of the semiconductor units exposed by the mask opening to form spacer structures. | 05-15-2014 |
20140140131 | THREE DIMENSIONAL GATE STRUCTURES WITH HORIZONTAL EXTENSIONS - A device on an integrated circuit includes a stack of alternating semiconductor lines and insulating lines, and a gate structure over the stack of semiconductor lines. The gate structure includes a vertical portion adjacent the stack on the at least one side, and horizontal extension portions between the semiconductor lines. Sides of the insulating lines can be recessed relative to sides of the semiconductor lines, so at least one side of the stack includes recesses between semiconductor lines. The horizontal extension portions can be in the recesses. The horizontal extension portions have inside surfaces adjacent the sides of the insulating lines, and outside surfaces that can be flush with the sides of the semiconductor lines. The device may include a second gate structure spaced away from the first mentioned gate structure, and an insulating element between horizontal extension portions of the second gate structure and the first mentioned gate structure. | 05-22-2014 |
20140154881 | METHOD OF MANUFACTURING METAL SILICIDE AND SEMICONDUCTOR STRUCTURE USING THE SAME - A method of manufacturing a metal silicide is disclosed below. A substrate having a first region and a second region is provided. A silicon layer is formed on the substrate. A planarization process is performed to make the silicon layer having a planar surface. A part of the silicon layer is removed to form a plurality of first gates on the first region and to form a plurality of second gates on the second region. The height of the first gates is greater than the height of the second gates, and top surfaces of the first gates and the second gates have the same height level. A dielectric layer covering the first gates and the second gates is formed and exposes the top surfaces of the first gates and the second gates. A metal silicide is formed on the top surfaces of the first gates and the second gates. | 06-05-2014 |
20140197516 | INTEGRATION OF 3D STACKED IC DEVICE WITH PERIPHERAL CIRCUITS - An integrated circuit device includes a substrate including a first region and a second region. A pit is formed in the first region. A stack of active layers alternating with insulating layers is deposited in the pit. The stack includes a particular insulating layer. The particular insulating layer has a first thickness, where a sum of the first thickness, thickness of active layers, and thicknesses of other insulating layers is essentially equal to a depth of the pit. The first thickness is different than the thicknesses of the other insulating layers by an amount within a range of process variations for the depth of the pit, for the thicknesses of the active layers, and for the thicknesses of other insulating layers. The device includes a planarized surface over the first and second regions, where an uppermost one of the active layers has a top surface below the planarized surface. | 07-17-2014 |
20150048506 | MEMORY DEVICE AND MANUFACTURING METHOD OF THE SAME - A memory device and a manufacturing method of the same are provided. The memory device includes a substrate, a 3D memory array, a periphery circuit, and a conductive connection structure. The 3D memory array and the periphery circuit are stacked on the substrate. The periphery circuit includes a patterned metal layer and a contact structure electrically connected to the patterned metal layer. The conductive connection structure is electrically connected to the patterned metal layer. The 3D memory array is electrically connected to the periphery circuit via the conductive connection structure. | 02-19-2015 |