Patent application number | Description | Published |
20100096753 | THROUGH-SILICON VIA STRUCTURES PROVIDING REDUCED SOLDER SPREADING AND METHODS OF FABRICATING THE SAME - A microelectronic device structure as provided herein includes a conductive via having a body portion extending into a substrate from an upper surface thereof and a connecting portion laterally extending along the upper surface of the substrate. The connecting portion includes a recess therein opposite the upper surface of the substrate. The recess is confined within the connecting portion of the conductive via and does not extend beneath the upper surface of the substrate. A microelectronic device structure is also provided that includes a conductive via having a body portion extending into a substrate from an upper surface thereof and an end portion below the upper surface of the substrate. The end portion has a greater width than that of the body portion. A solder wettable layer is provided on the end portion. The solder wettable layer is formed of a material having a greater wettability with a conductive metal than that of the end portion of conductive via. Related methods of fabrication are also discussed. | 04-22-2010 |
20110045666 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device, including forming gate patterns over a substrate, forming conductive layer covering top and sidewalls of each gate pattern, forming a metal layer for a silicidation process over the conductive layer, and silicifying the conductive layer and the gate patterns using the metal layer. | 02-24-2011 |
20120207273 | RADIOGRAPHIC APPARATUS - Disclosed is a radiographic apparatus including a detachable manipulation panel which includes a capturing device to generate X-rays and to irradiate the X-rays to a subject so as to capture the subject, a controller connected to the capturing device to control the capturing device, and a manipulation device mounted to the capturing device to allow an inspector to input commands to control the capturing device, wherein the manipulation device is detachably mounted to the capturing device and, in a state in which the manipulation device is separated from the capturing device, is connected to the controller using a wireless interface to control the capturing device. | 08-16-2012 |
20130171827 | METHOD AND APPARATUS FOR MANUFACTURING THREE-DIMENSIONAL-STRUCTURE MEMORY DEVICE - A method for manufacturing a memory device having a vertical structure according to one embodiment of the present invention comprises: a step for alternatingly laminating one or more insulation layers and one or more sacrificial layers on a substrate; a step for forming a penetration hole for penetrating the insulation layer and the sacrificial layer; a step for forming a pattern for filling up the penetration hole; a step for forming an opening for penetrating the insulation layer and the sacrificial layer; and a step for removing the sacrificial layer by supplying an etchant through the opening, wherein the step for laminating the insulation layer includes a step for depositing a first silicon oxide film by supplying to the substrate at least one gas selected from the group consisting of SiH | 07-04-2013 |
20130178066 | METHOD AND APPARATUS FOR MANUFACTURING THREE-DIMENSIONAL-STRUCTURE MEMORY DEVICE - Provided is a method of manufacturing a memory device having a 3-dimensional structure, which includes alternately stacking one or more dielectric layers and one or more sacrificial layers on a substrate, forming a through hole passing through the dielectric layers and the sacrificial layers, forming a pattern filling the through hole, forming an opening passing through the dielectric layers and the sacrificial layers, and supplying an etchant through the opening to remove the sacrificial layers. The stacking of the dielectric layers includes supplying the substrate with one or more gases selected from the group consisting of SiH | 07-11-2013 |
20140144375 | EQUIPMENT FOR MANUFACTURING SEMICONDUCTOR - Provided is an equipment for manufacturing a semiconductor. The equipment for manufacturing a semiconductor includes a cleaning chamber in which a cleaning process is performed on substrates, an epitaxial chamber in which an epitaxial process for forming an epitaxial layer on each of the substrates is performed, and a transfer chamber to which the cleaning chamber and the epitaxial chamber are connected to sides surfaces thereof, the transfer chamber including a substrate handler for transferring the substrates, on which the cleaning process is completed, into the epitaxial chamber. The cleaning chamber includes a reaction chamber connected to a side surface of the transfer chamber to perform a reaction process on the substrates and a heating chamber connected to a side surface of the transfer chamber to perform a heating process on the substrates. The reaction chamber and the heating chamber are vertically stacked on each other. | 05-29-2014 |
20140174357 | EQUIPMENT FOR MANUFACTURING SEMICONDUCTOR - Provided is an equipment for manufacturing a semiconductor. The equipment for manufacturing a semiconductor includes a cleaning chamber in which a cleaning process is performed on substrates, an epitaxial chamber in which an epitaxial process for forming an epitaxial layer on each of the substrates is performed, and a transfer chamber to which the cleaning chamber and the epitaxial chamber are connected to sides surfaces thereof, the transfer chamber including a substrate handler for transferring the substrates, on which the cleaning process is completed, into the epitaxial chamber. The cleaning chamber is performed in a batch type with respect to the plurality of substrates. | 06-26-2014 |
20140190410 | EQUIPMENT FOR MANUFACTURING SEMICONDUCTOR - Provided is an equipment for manufacturing a semiconductor. The equipment for manufacturing a semiconductor includes a cleaning chamber in which a cleaning process is performed on substrates, an epitaxial chamber in which an epitaxial process for forming an epitaxial layer on each of the substrates is performed, and a transfer chamber to which the cleaning chamber and the epitaxial chamber are connected to sides surfaces thereof, the transfer chamber including a substrate handler for transferring the substrates, on which the cleaning process is completed, into the epitaxial chamber. | 07-10-2014 |
20140209024 | EQUIPMENT FOR MANUFACTURING SEMICONDUCTOR - Provided is an equipment for manufacturing a semiconductor. The equipment for manufacturing a semiconductor includes a cleaning chamber in which a cleaning process is performed on substrates, an epitaxial chamber in which an epitaxial process for forming an epitaxial layer on each of the substrates is performed, a buffer chamber having a storage space for storing the substrates, and a transfer chamber to which the cleaning chamber, the buffer chamber, and the epitaxial chamber are connected to side surfaces thereof, the transfer chamber comprising a substrate handler for transferring the substrates between the cleaning chamber, the buffer chamber, and the epitaxial chamber. The substrate handler successively transfers the substrates, on which the cleaning process is completed, into the buffer chamber, transfers the substrates stacked within the buffer chamber the epitaxial chamber, and successively transfers the substrates, on which the epitaxial layers are respectively formed, into the buffer chamber. | 07-31-2014 |
20140261186 | METHOD AND APPARATUS FOR MANUFACTURING THREE-DIMENSIONAL-STRUCTURE MEMORY DEVICE - Provided is a method of manufacturing a memory device having a 3-dimensional structure, which includes alternately stacking one or more dielectric layers and one or more sacrificial layers on a substrate, forming a through hole passing through the dielectric layers and the sacrificial layers, forming a pattern filling the through hole, forming an opening passing through the dielectric layers and the sacrificial layers, and supplying an etchant through the opening to remove the sacrificial layers. The stacking of the dielectric layers includes supplying the substrate with one or more gases selected from the group consisting of SiH | 09-18-2014 |