Patent application number | Description | Published |
20080305614 | PRECISION TRENCH FORMATION FOR SEMICONDUCTOR DEVICE - Structures and methods for precision trench formation are disclosed. In one embodiment, a method for manufacturing a semiconductor device comprises forming a first oxygen-containing region in a semiconductor substrate by performing an oxygen ion implantation to a portion of the semiconductor substrate, and oxidizing the first oxygen-containing region using oxygen contained therein by performing a thermal processing to the semiconductor substrate, where the first oxygen-containing region is converted to a first oxide region. The method further comprises forming a groove in the semiconductor substrate by eliminating the first oxide region, where the performing thermal processing comprises subjecting the first oxygen-containing region to a gas low on oxygen. | 12-11-2008 |
20090032864 | SELF-ALIGNED CHARGE STORAGE REGION FORMATION FOR SEMICONDUCTOR DEVICE - Devices and methods for forming self-aligned charge storage regions are disclosed. In one embodiment, a method for manufacturing a semiconductor device comprises forming a layer of a nitride film stacked between two oxide films on a semiconductor substrate, and forming a gate electrode on the layer of the nitride film stacked between the two oxide films. In addition, the method comprises removing side portions of the nitride film such that a central portion of the nitride film below a center portion of the gate electrode remains, oxidizing the central portion of the nitride film, and forming charge storage layers in the side portions of the nitride film, where the charge storage layers are separated by the central portion of the nitride film. | 02-05-2009 |
20090206388 | SEPERATION METHODS FOR SEMICONDUCTOR CHARGE ACCUMULATION LAYERS AND STRUCTURES THEREOF - Devices and methods for isolating adjacent charge accumulation layers in a semiconductor device are disclosed. In one embodiment, a semiconductor device comprises a bit line formed in a semiconductor substrate, a charge accumulation layer formed on the semiconductor substrate, a word line formed on the charge accumulation layer across the bit line, and a channel region formed in the semiconductor substrate below the word line and between the bit line and its adjacent bit line. For the semiconductor device, the charge accumulation layer is formed above the channel region in a widthwise direction of the word line, and a width of the word line is set to be narrower than a distance between an end of the channel region and a central part of the channel region in a lengthwise direction of the word line. | 08-20-2009 |
20090315098 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING - A method for manufacturing a semiconductor device is disclosed. The method includes forming a shallow trench isolation (STI) region extending in a first direction on a semiconductor substrate, forming a mask layer extending in a second direction that intersects with the first direction on the semiconductor substrate and forming a trench on the semiconductor substrate by using the STI region and the mask layer as masks. In addition, the method includes forming a charge storage layer so as to cover the trench and forming a conductive layer on side surfaces of the trench and the mask layer. Word lines are formed from the conductive layer on side surfaces of the trench that oppose in the first direction by etching. The word lines are separated from each other and extend in the second direction. | 12-24-2009 |
20090321812 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THEREOF - The present invention provides a semiconductor device including a semiconductor substrate provided with a trench section; a tunnel insulating film covering an inner surface of the trench section; a trap layer provided in contact with the tunnel insulating film on an inner surface of an upper portion of the trench section; a top insulating film provided in contact with the trap layer; a gate electrode embedded in the trench section, and provided in contact with the tunnel insulating film at a lower portion of the trench section and in contact with the top insulating film at the upper portion of the trench section, in which the trap layer and the top insulating film, in between the lower portion of the trench section and the upper portion of the trench section, extend and protrude from both sides of the trench section so as to be embedded in the gate electrode, and a method for manufacturing thereof. | 12-31-2009 |
20100001336 | SONOS-NAND DEVICE HAVING A STORAGE REGION SEPARATED BETWEEN CELLS - The present invention is a semiconductor device including a semiconductor substrate having a trench, a first insulating film provided on side surfaces of the trench, a second insulating film of a material different from the first insulating film provided to be embedded in the trench, a word line provided extending to intersect with the trench above the semiconductor substrate, a gate insulating film of a material different from the first insulating film separated in an extending direction of the word line by the trench and provided under a central area in a width direction of the word line, and a charge storage layer separated in the extending direction of the word line by the trench and provided under both ends in the width direction of the word line to enclose the gate insulating film, and a method for manufacturing the same. | 01-07-2010 |
20110081767 | PRECISION TRENCH FORMATION THROUGH OXIDE REGION FORMATION FOR A SEMICONDUCTOR DEVICE - Structures and methods for precision trench formation are disclosed. In one embodiment, a method for manufacturing a semiconductor device comprises forming a first oxygen-containing region in a semiconductor substrate by performing an oxygen ion implantation to a portion of the semiconductor substrate, and oxidizing the first oxygen-containing region using oxygen contained therein by performing a thermal processing to the semiconductor substrate, where the first oxygen-containing region is converted to a first oxide region. The method further comprises forming a groove in the semiconductor substrate by eliminating the first oxide region, where the performing thermal processing comprises subjecting the first oxygen-containing region to a gas low on oxygen. | 04-07-2011 |
20110198684 | SELF-ALIGNED CHARGE STORAGE REGION FORMATION FOR SEMICONDUCTOR DEVICE - Devices and methods for forming self-aligned charge storage regions are disclosed. In one embodiment, a method for manufacturing a semiconductor device comprises forming a layer of a nitride film stacked between two oxide films on a semiconductor substrate, and forming a gate electrode on the layer of the nitride film stacked between the two oxide films. In addition, the method comprises removing side portions of the nitride film such that a central portion of the nitride film below a center portion of the gate electrode remains, oxidizing the central portion of the nitride film, and forming charge storage layers in the side portions of the nitride film, where the charge storage layers are separated by the central portion of the nitride film. | 08-18-2011 |
20110233638 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THEREOF - The present invention provides a semiconductor device including a semiconductor substrate provided with a trench section; a tunnel insulating film covering an inner surface of the trench section; a trap layer provided in contact with the tunnel insulating film on an inner surface of an upper portion of the trench section; a top insulating film provided in contact with the trap layer; a gate electrode embedded in the trench section, and provided in contact with the tunnel insulating film at a lower portion of the trench section and in contact with the top insulating film at the upper portion of the trench section, in which the trap layer and the top insulating film, in between the lower portion of the trench section and the upper portion of the trench section, extend and protrude from both sides of the trench section so as to be embedded in the gate electrode, and a method for manufacturing thereof. | 09-29-2011 |
20110233651 | METHOD TO SEPERATE STORAGE REGIONS IN THE MIRROR BIT DEVICE - Devices and methods for isolating adjacent charge accumulation layers in a semiconductor device are disclosed. In one embodiment, a semiconductor device comprises a bit line formed in a semiconductor substrate, a charge accumulation layer formed on the semiconductor substrate, a word line formed on the charge accumulation layer across the bit line, and a channel region formed in the semiconductor substrate below the word line and between the bit line and its adjacent bit line. For the semiconductor device, the charge accumulation layer is formed above the channel region in a widthwise direction of the word line, and a width of the word line is set to be narrower than a distance between an end of the channel region and a central part of the channel region in a lengthwise direction of the word line. | 09-29-2011 |
20110291227 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING - A method for manufacturing a semiconductor device is disclosed. The method includes forming a shallow trench isolation (STI) region extending in a first direction on a semiconductor substrate, forming a mask layer extending in a second direction that intersects with the first direction on the semiconductor substrate and forming a trench on the semiconductor substrate by using the STI region and the mask layer as masks. In addition, the method includes forming a charge storage layer so as to cover the trench and forming a conductive layer on side surfaces of the trench and the mask layer. Word lines are formed from the conductive layer on side surfaces of the trench that oppose in the first direction by etching. The word lines are separated from each other and extend in the second direction. | 12-01-2011 |
20140167211 | METHOD FOR AMNUFACTURING A SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes forming a silicon nitride film having an opening portion on a semiconductor substrate, forming a silicon oxide film on the silicon nitride film and on a side face of the opening portion, performing an etching treatment to the silicon oxide film so that a sidewall is formed on the side face of the opening portion, forming a trench on the semiconductor substrate with use of the sidewall and the silicon nitride film as a mask, and forming an insulating layer in the trench. The step of forming the silicon oxide film includes oxidizing the silicon nitride film with a plasma oxidation method or a radical oxidation method. | 06-19-2014 |