Class / Patent application number | Description | Number of patent applications / Date published |
438387000 | Having stacked capacitor structure (e.g., stacked trench, buried stacked capacitor, etc.) | 17 |
20080233706 | MANUFACTURING METHOD OF DYNAMIC RANDOM ACCESS MEMORY - A dynamic random access memory (DRAM) is provided. The dynamic random access memory includes a deep trench capacitor disposed in a first trench of a substrate, a conductive layer disposed in a second trench of the substrate, a gate structure, and a conductive layer disposed on the surface of the substrate at two sides of the gate structure. The depth of the second trench is smaller than the depth of the first trench, and the second trench partially overlaps with the first trench. The conductive layer disposed in the second trench is electrically connected with the conductive layer of the deep trench capacitor. The gate structure is disposed on the substrate. The conductive layer at one side of the gate structure is electrically connected with the conductive layer disposed in the second trench. | 09-25-2008 |
20080286934 | METHOD OF FORMING A TRENCH CAPACITOR - A method of forming a ring-type capacitor is provided. The method includes providing a substrate; forming a patterned mask layer on the substrate, the patterned mask layer defining a ring pattern; removing the substrate by using the patterned mask layer as a mask to form a ring-type trench in the substrate; the ring-type trench including an inner wall and an outer wall; and forming a capacitor structure on the inner wall and the outer wall of the ring-type trench. | 11-20-2008 |
20090047769 | Methods of Forming a Plurality of Capacitors - A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Covering material is formed over an elevationally outer lateral interface of the conductive material within the trench and the insulative material of the circuitry area. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area and to expose the conductive material within the trench. The conductive material within the array area is incorporated into a plurality of capacitors. | 02-19-2009 |
20090087958 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device and a manufacturing method thereof which enable to secure high yield and increase the capacity of a capacitor are provided. The semiconductor device according to the present invention includes: a plurality of capacitor layers laminated, each capacitor layer including a plurality of storage electrodes, a capacity insulating film covering the surface of the storage electrodes, and a plate electrode provided between the storage electrodes, wherein the plate electrode of each of the laminated capacitor layers are electrically connected to each other and the corresponding storage electrode of each of the laminated capacitor layers are electrically connected to each other. | 04-02-2009 |
20100151653 | Methods Of Forming A Plurality Of Capacitors - A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Covering material is formed over an elevationally outer lateral interface of the conductive material within the trench and the insulative material of the circuitry area. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area and to expose the conductive material within the trench. The conductive material within the array area is incorporated into a plurality of capacitors. | 06-17-2010 |
20100330771 | Moisture Barrier Capacitors in Semiconductor Components - Structures and methods of forming moisture barrier capacitor on a semiconductor component are disclosed. The capacitor is located on the periphery of a semiconductor chip and includes an inner plate electrically connected to a voltage node, an outer plate with fins for electrically connecting to a different voltage node. | 12-30-2010 |
20110092044 | METHOD FOR MANUFACTURING CAPACITOR LOWER ELECTRODES OF SEMICONDUCTOR MEMORY - A method for manufacturing capacitor lower electrodes includes a dielectric layer, a first silicon nitride layer and a hard mask layer; partially etching the hard mask layer, the first silicon nitride layer and the dielectric layer to form a plurality of concave portions; depositing a second silicon nitride layer onto the hard mask layer and into the concave portions; partially etching the second silicon nitride layer, the hard mask layer and the dielectric layer to form a plurality of trenches; forming a capacitor lower electrode within each trench and partially etching the first silicon nitride layer, the second silicon nitride layer, the dielectric layer and the capacitor lower electrodes to form an etching area; and etching and removing the dielectric layer from the etching area, thereby a periphery of each capacitor lower electrode is surrounded and attached to by the second silicon nitride layer. | 04-21-2011 |
20110117718 | METHOD OF FORMING SEMICONDUCTOR DEVICE - A method of forming a semiconductor device includes forming a hole in an insulating film, forming a first conductive film in the hole, removing at least a portion of the insulating film around the first conductive film, and reducing a thickness of the first conductive film to produce a second conductive film. | 05-19-2011 |
20120196424 | METHOD OF FABRICATING A DEEP TRENCH (DT) METAL-INSULATOR-METAL (MIM) CAPACITOR - A method includes providing an SOI substrate including a layer of silicon disposed atop a layer of an oxide, the layer of an oxide being disposed atop the semiconductor substrate; forming a deep trench having a sidewall extending through the layer of silicon and the layer of an oxide and into the substrate; depositing a continuous spacer on the sidewall to cover the layer of silicon, the layer of an oxide and a part of the substrate; depositing a first conformal layer of a conductive material throughout the inside of the deep trench; creating a silicide within the deep trench in regions extending through the sidewall into an uncovered part of the substrate; removing the first conformal layer from the continuous spacer; removing the continuous spacer; depositing a layer of a high k dielectric material throughout the inside of the deep trench, and depositing a second conformal layer of a conductive material onto the layer of a high-k dielectric material. | 08-02-2012 |
20120302031 | PLASMA ETCHING METHOD AND PLASMA ETCHING APPARATUS FOR PREPARING HIGH-ASPECT-RATIO STRUCTURES - The present invention relates to a plasma etching method and apparatus for preparing high-aspect-ratio structures. The method includes the steps of placing the substrate into a plasma etching apparatus, wherein the plasma etching apparatus includes an upper electrode plate and a lower electrode plate; continuously supplying an upper source RF power and a DC power to the upper electrode plate; and discontinuously supplying a bias RF power to the lower electrode plate. When the bias RF power is switched to the off state, a large amount of secondary electrons pass through the bulk plasma and reach the substrate to neutralize the positive ions during the duration time of the off state (T | 11-29-2012 |
20130183805 | HIGH CAPACITANCE TRENCH CAPACITOR - A dual node dielectric trench capacitor includes a stack of layers formed in a trench. The stack of layers include, from bottom to top, a first conductive layer, a first node dielectric layer, a second conductive layer, a second node dielectric layer, and a third conductive layer. The dual node dielectric trench capacitor includes two back-to-back capacitors, which include a first capacitor and a second capacitor. The first capacitor includes the first conductive layer, the first node dielectric layer, the second conductive layer, and the second capacitor includes the second conductive layer, the second node dielectric layer, and the third conductive layer. The dual node dielectric trench capacitor can provide about twice the capacitance of a trench capacitor employing a single node dielectric layer having a comparable composition and thickness as the first and second node dielectric layers. | 07-18-2013 |
20130337629 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device is described. A substrate having first and second areas is provided. A first patterned mask layer having at least one first opening in the first area and at least one second opening in the second area is formed over the substrate, wherein the first opening is smaller than the second opening. A portion of the substrate is removed with the first patterned mask layer as a mask to form first and second trenches respectively in the substrate in the first and second areas, wherein the width and the depth of the first trench are less than those of the second trench. A first dielectric layer is formed at least in the first and second trenches. A conductive structure is formed on the first dielectric layer on at least a portion of the sidewall of each of the first and second trenches. | 12-19-2013 |
20140057408 | RECTANGULAR CAPACITORS FOR DYNAMIC RANDOM ACCESS MEMORY (DRAM) AND DUAL-PASS LITHOGRAPHY METHODS TO FORM THE SAME - A rectangular capacitor for dynamic random access memory (DRAM) and a dual-pass lithography method to form the same are described. For example, a capacitor includes a trench disposed in a first dielectric layer disposed above a substrate. A cup-shaped metal plate is disposed along the bottom and sidewalls of the trench. A second dielectric layer is disposed on and conformal with the cup-shaped metal plate. A trench-fill metal plate is disposed on the second dielectric layer. The second dielectric layer isolates the trench-fill metal plate from the cup-shaped metal plate. The capacitor has a rectangular or near-rectangular shape from a top-down perspective. | 02-27-2014 |
20140080280 | SEMICONDUCTOR STRUCTURE AND METHOD FOR MAKING SAME - An embodiment relates to a method of forming a semiconductor structure, comprising: forming a first semiconductor layer; forming a second semiconductor layer over the first semiconductor layer; forming a third semiconductor layer over the second semiconductor layer; forming an opening in the first, second and third semiconductor layers; forming a conductive region within the first, the and third semiconductor layer, the conductive region surrounding the opening, the conductive region being electrically coupled to the first semiconductor layer; forming a dielectric layer in the opening and over the conductive region; and forming a conductive layer over the dielectric layer in the opening. | 03-20-2014 |
20140120690 | Streamlined Process for Vertical Semiconductor Devices - The present disclosure provides a streamlined approach to forming vertically structured devices such as deep trench capacitors. Trenches and a contact plate bridging the trenches are formed using one lithographic process. A hard mask is formed over the substrate and etched through the mask to form two or more closely spaced trenches. The hard mask is then reduced by an isotropic etch process. The etch removes the hard mask preferentially between the trenches. Chemical mechanical polishing removes the conductive material down to the remaining hard mask layer, whereby conductive material remains in mask openings and forms a conductive bridge across the trenches. | 05-01-2014 |
20160126305 | MULTILAYER MIM CAPACITOR - A semiconductor capacitor and method of fabrication is disclosed. A MIM stack, having alternating first-type and second-type metal layers (each separated by dielectric) is formed in a deep cavity. The entire stack can be planarized, and then patterned to expose a first area, and selectively etched to recess all first metal layers within the first area. A second selective etch is performed to recess all second metal layers within a second area. The etched recesses can be backfilled with dielectric. Separate electrodes can be formed; a first electrode formed in said first area and contacting all of said second-type metal layers and none of said first-type metal layers, and a second electrode formed in said second area and contacting all of said first-type metal layers and none of said second-type metal layers. | 05-05-2016 |
20160163711 | WET BOTTLING PROCESS FOR SMALL DIAMETER DEEP TRENCH CAPACITORS - A method including forming a deep trench in a semiconductor-on-insulator substrate including an SOI layer directly on top of a buried oxide layer directly on top of a base substrate, masking only a top surface of the SOI layer and a sidewall of the SOI layer exposed within an upper portion of the deep trench with a dielectric material without masking any surface of the base substrate exposed within a lower portion of the deep trench, and forming a bottle shaped trench by etching the base substrate exposed in the lower portion of the deep trench selective to the dielectric material and the buried oxide layer. | 06-09-2016 |