Patent application number | Description | Published |
20080203378 | SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A phase change memory device including plural memory cells is disclosed. Each of the memory cells includes memory transistors and phase change film portions formed above or below the memory transistors. The phase change film portions correspond to the respective memory transistors respectively. Vias are provided in order to connect each of the memory transistor in parallel to each of the phase change film portions in each of the memory cells. The vias connect the memory cells in series to one another. | 08-28-2008 |
20080315291 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A nonvolatile semiconductor memory device has a plurality of memory strings each including a plurality of electrically rewritable memory cells serially connected. The memory string includes a columnar semiconductor portion extending in the vertical direction from a substrate, a first charge storage layer formed adjacent to the columnar semiconductor portion and configured to accumulate charge, a first block insulator formed adjacent to the first charge storage layer, and a first conductor formed adjacent to the first block insulator. | 12-25-2008 |
20080315296 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device | 12-25-2008 |
20090090965 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device has a plurality of memory strings with a plurality of electrically rewritable memory cells connected in series. Each of the memory strings includes: a memory columnar semiconductor extending in a direction perpendicular to a substrate; a tunnel insulation layer contacting the memory columnar semiconductor; a charge accumulation layer contacting the tunnel insulation layer and accumulating charges; a block insulation layer contacting the charge accumulation layer; and a plurality of memory conductive layers contacting the block insulation layer. The lower portion of the charge accumulation layer is covered by the tunnel insulation layer and the block insulation layer. | 04-09-2009 |
20090101969 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device comprising: a semiconductor substrate; a first conductive layer provided on a surface of the substrate and serving as one of a source and a drain; a first insulating film provided on the first conductive layer; a gate electrode film provided on the first insulating film; a second insulating film provided on the gate electrode film; a gate opening provided so as to penetrate the second insulating film, the gate electrode film and the first insulating film to expose a part of the first conductive layer; a recess provided in the surface of the first conductive layer just below the gate opening; a gate insulator provided on the side surface of the gate opening and having a projecting shape at a portion between the first insulating film and the recess; a second conductive layer buried in the recess and in a bottom of the gate opening so as to be in contact with the gate insulator, and serving as the one of the source and the drain while being in contact with the first conductive layer; a channel which is buried in the gate opening above the second conductive layer so as to face the gate electrode film with the gate insulator therebetween, and which has a channel layer generated therein, the channel layer allowing majority carriers to flow between the source and the drain in response to a voltage applied to the gate; and a third conductive layer buried in the gate opening above the channel so as to be in contact with the gate insulator to serve as the other one of the source and the drain. | 04-23-2009 |
20090108333 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device has a plurality of memory strings with a plurality of electrically rewritable memory cells connected in series. Each of the memory strings includes: a first columnar semiconductor layer extending in a direction perpendicular to a substrate; a charge accumulation layer formed on the first columnar semiconductor layer via a first air gap and accumulating charges; a block insulation layer contacting the charge accumulation layer; and a plurality of first conductive layers contacting the block insulation layer. | 04-30-2009 |
20090146190 | SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR FABRICATING SEMICONDUCTOR MEMORY DEVICE - According to an aspect of the present invention, there is provided a nonvolatile semiconductor memory device, comprising a plurality of memory strings, each of the memory strings being constituted with a plurality of electrically erasable memory cells being serially connected each other, the memory strings comprising:
| 06-11-2009 |
20090146206 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device has a plurality of memory strings with a plurality of electrically rewritable memory cells connected in series. Each of the memory strings includes: a first columnar semiconductor layer extending in a direction perpendicular to a substrate and having a first hollow extending downward from its upper end; a first insulation layer formed in contact with the outer wall of the first columnar semiconductor layer; a second insulation layer formed on the inner wall of the first columnar semiconductor layer so as to leave the first hollow; and a plurality of first conductive layers formed to sandwich the first insulation layer with the first columnar semiconductor layer and functioning as control electrodes of the memory cells. | 06-11-2009 |
20090179257 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor memory device includes a first columnar semiconductor layer and a plurality of first conductive layers formed such that a charge storage layer for storing charges is sandwiched between the first conductive layers and the first columnar semiconductor layer. Also, the non-volatile semiconductor memory device includes a second columnar semiconductor layer and a second conductive layer formed such that an insulating layer is sandwiched between the second conductive layer and the second columnar semiconductor layer, the second conductive layer being repeatedly provided in a line form by providing a certain interval in a first direction perpendicular to a laminating direction. A first sidewall conductive layer being in contact with the second conductive layer and extending in the first direction is formed on a sidewall along a longitudinal direction of the second conductive layer. | 07-16-2009 |
20090212350 | NONVOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A nonvolatile semiconductor storage device has a plurality of memory strings in which a plurality of electrically rewritable memory cells are connected in series. The memory string has a columnar semiconductor layer extending in a direction perpendicular to a substrate; a conductive layer formed so as to sandwich a charge storing layer in cooperation with the columnar semiconductor layer; and a metal layer formed so as to be in contact with the top face of the conductive layer. | 08-27-2009 |
20090230458 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device has a plurality of memory strings with a plurality of electrically rewritable memory cells connected in series. Each of the memory strings includes: a columnar semiconductor layer extending in a direction perpendicular to a substrate; a plurality of conductive layers formed at a sidewall of the columnar semiconductor layer via memory layers; and interlayer insulation layers formed above of below the conductive layers. A sidewall of the conductive layers facing the columnar semiconductor layer is formed to be inclined such that the distance thereof from a central axis of the columnar semiconductor layer becomes larger at lower position thereof than at upper position thereof. While, a sidewall of the interlayer insulation layers facing the columnar semiconductor layer is formed to be inclined such that the distance thereof from a central axis of the columnar semiconductor layer becomes smaller at lower position thereof than at upper position thereof. | 09-17-2009 |
20090230459 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor memory device includes a memory string which is electrically rewritable and includes a plurality of memory cells connected in series. The memory string includes a plurality of first conductive layers which are extended parallel to a substrate and laminated; a first semiconductor layer which is formed so as to pass through the plurality of the first conductive layers; and an electric charge accumulation layer which is formed between the first conductive layer and the first semiconductor layer and is configured so as to be able to accumulate electric charge. The first conductive layer is configured by material smaller in work function than P | 09-17-2009 |
20090230462 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - Each of the memory strings includes: a first columnar semiconductor layer extending in a vertical direction to a substrate; a plurality of first conductive layers formed to sandwich an insulation layer with a charge trap layer and expand in a two-dimensional manner; a second columnar semiconductor layer formed in contact with the top surface of the first columnar semiconductor layer and extending in a vertical direction to the substrate; and a plurality of second conductive layers formed to sandwich an insulation layer with the second columnar semiconductor layer and formed in a stripe pattern extending in a first direction orthogonal to the vertical direction. Respective ends of the plurality of first conductive layers in the first direction are formed in a stepwise manner in relation to each other, entirety of the plurality of the second conductive layers are formed in an area immediately above the top layer of the first conductive layers, and the plurality of first conductive layers and the plurality of second conductive layers are covered with a protection insulation layer that is formed continuously with the plurality of first conductive layers and the second conductive layers. | 09-17-2009 |
20090242967 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device has a plurality of memory strings with a plurality of electrically rewritable memory cells connected in series. Each of the memory strings comprises: a first columnar semiconductor layer extending in a vertical direction to a substrate; a charge accumulation layer formed around the first columnar semiconductor layer via a first insulation layer; and a first conductive layer formed around the charge accumulation layer via a second insulation layer. Each of the first conductive layers is formed to expand in a two-dimensional manner, and air gaps are formed between the first conductive layers located there above and there below. | 10-01-2009 |
20090267135 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device includes a first layer and a second layer. The first layer includes: a plurality of first conductive layers extending in parallel to a substrate and laminated in a direction perpendicular to the substrate; a first insulation layer formed on an upper layer of the plurality of first conductive layers; a first semiconductor layer formed to penetrate the plurality of first conductive layers; and a charge accumulation layer formed between the first conductive layers and the first semiconductor layer. Respective ends of the first conductive layers are formed in a stepwise manner in relation to each other in a first direction. The second layer includes: a plurality of second conductive layers extending in parallel to the substrate and laminated in a direction perpendicular to the substrate, the second conductive layers being formed in the same layer as the plurality of first conductive layers; and a second insulation layer formed on an upper layer of the plurality of second conductive layers. Respective ends of the second conductive layers are formed to align along a straight line extending in a direction substantially perpendicular to the substrate at a predetermined area. | 10-29-2009 |
20090294844 | SEMICONDUCTOR DEVICE - A semiconductor device has a substrate, a source region formed on the surface portion of the substrate, a first insulating layer formed on the substrate, a gate electrode formed on the first insulating layer, a second insulating layer formed on the gate electrode, a body section connected with the source region, penetrating through the first insulating layer, the gate electrode and the second insulating layer, and containing a void, a gate insulating film surrounding the body section, and formed between the body section and the gate electrode, and a drain region connected with the body section. | 12-03-2009 |
20090321813 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes: a stacked body with a plurality of insulating films and electrode films alternately stacked therein, through which a through hole extending in the stacking direction is formed; a semiconductor pillar buried inside the through hole; and a charge storage layer located on both sides of each of the electrode films in the stacking direction and insulated from the electrode film and the semiconductor pillar. | 12-31-2009 |
20100013049 | SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A first multilayer body is formed by alternately layering dielectric films and electrode films on a substrate. Then, an end portion of the first multilayer body is processed into a staircase shape, and a first interlayer dielectric film is formed around the first multilayer body. Next, a plurality of contact holes having a diameter decreasing downward are formed in the first interlayer dielectric film so that the contact holes reach respective end portions of the electrode films. Then, a sacrificial material is buried in the contact holes. Next, a second multilayer body is formed immediately above the first multilayer body, and a second interlayer dielectric film is formed around the second multilayer body. Thereafter, a plurality of contact holes having a diameter decreasing downward are formed in the second interlayer dielectric film to communicate with the respective contact holes formed in the first interlayer dielectric film. Then, the sacrificial material is removed and a contact is buried inside the contact holes. The contact has a step difference. | 01-21-2010 |
20100034028 | METHOD FOR DRIVING NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - In a nonvolatile semiconductor memory device having n (n is an integer of two or more) electrode films stacked and having charge storage layers provided above and below each of the electrode films, when data ā0ā is written by injecting electrons into the charge storage layer on a source line side of a memory cell of the number k (k is an integer of 1 to (nā1)) as counted from an end on a bit line side in a selected semiconductor pillar, positive program potential is given to the electrode film of the number 1 to k as counted from the bit line side, and 0 V is given to the electrode film of the number (k+1) to n, therewith positive potential is given to the bit line and 0 V is given to the source line. | 02-11-2010 |
20100038699 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A stacked body is formed on a silicon substrate by stacking a plurality of insulating films and a plurality of electrode films alternately and through-holes are formed to extend in the stacking direction. Next, gaps are formed between the electrode films using etching the insulating films via the through-holes. Charge storage layers are formed along side faces of the through-holes and inner faces of the gaps, and silicon pillars are filled into the through-holes. Thereby, a nonvolatile semiconductor memory device is manufactured. | 02-18-2010 |
20100038703 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE - A memory string has a semiconductor layer with a joining portion that is formed to join a plurality of columnar portions extending in a vertical direction with respect to a substrate and lower ends of the plurality of columnar portions. First conductive layers are formed in a laminated fashion to surround side surfaces of the columnar portions and an electric charge storage layer, and function as control electrodes of memory cells. A second conductive layer is formed around the plurality of columnar portions via a gate insulation film, and functions as control electrodes of selection transistors. Bit lines are formed to be connected to the plurality of columnar portions, respectively, with a second direction orthogonal to a first direction taken as a longitudinal direction. | 02-18-2010 |
20100039865 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MAKING THE SAME - A non-volatile semiconductor memory device according to the present invention includes a substrate; a first word-line provided above the substrate surface, the first word-line having a plate shape in an area where a memory cell is formed; a second word-line provided above the first word-line surface, the second word-line having a plate shape; a plurality of metal wirings connecting the first and second word-lines with a driver circuit; and a plurality of contacts connecting the first and second word-lines with the metal wirings. The contact of the first word-line is formed in a first word-line contact area. The contact of the second word-line is formed in a second word-line contact area. The first word-line contact area is provided on a surface of the first word-line that is drawn to the second word-line contact area. | 02-18-2010 |
20100044776 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A multilayer body is formed by alternately stacking electrode films serving as control gates and dielectric films in a direction orthogonal to an upper surface of a silicon substrate. Trenches extending in the word line direction are formed in the multilayer body and a memory film is formed on an inner surface of the trench. Subsequently, a silicon body is buried inside the trench, and a charge storage film and the silicon body are divided in the word line direction to form silicon pillars. This simplifies the configuration of memory cells in the bit line direction, and hence can shorten the arrangement pitch of the silicon pillars, decreasing the area per memory cell. | 02-25-2010 |
20100052042 | SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - The semiconductor memory device of the present invention includes a plurality of memory strings having a plurality of electrically reprogrammable memory cells connected in series, the memory strings having a column shaped semiconductor, a first insulation film formed around the column shaped semiconductor, a charge accumulation layer formed around the first insulation film, a second insulation film formed around the charge accumulation film and a plurality of electrodes formed around the second insulation film, a bit line connected to one end of the memory strings via a plurality of selection transistors, and a conducting layer extending in two dimensions and in which the plurality of electrodes of the memory strings and the plurality of electrodes of different memory strings are shared respectively, wherein each end part of the conducting layer is formed in step shapes in a direction parallel with the bit line. | 03-04-2010 |
20100072538 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A nonvolatile semiconductor memory device includes a plurality of memory strings, each of which has a plurality of electrically rewritable memory cells connected in series; and select transistors, one of which is connected to each of ends of each of the memory strings. Each of the memory strings is provided with a first semiconductor layer having a pair of columnar portions extending in a perpendicular direction with respect to a substrate, and a joining portion formed so as to join lower ends of the pair of columnar portions; a charge storage layer formed so as to surround a side surface of the columnar portions; and a first conductive layer formed so as to surround the side surface of the columnar portions and the charge storage layer, and configured to function as a control electrode of the memory cells. Each of the select transistors is provided with a second semiconductor layer extending upwardly from an upper surface of the columnar portions; and a second conductive layer formed so as to surround a side surface of the second semiconductor layer with a gap interposed, and configured to function as a control electrode of the select transistors. | 03-25-2010 |
20100096682 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device has a memory string including a plurality of electrically rewritable memory cells connected in series. The non-volatile semiconductor storage device also has a protruding layer formed to protrude upward with respect to a substrate. The memory string includes: a plurality of first conductive layers laminated on the substrate; a first semiconductor layer formed to penetrate the plurality of first conductive layers; and an electric charge storage layer formed between the first conductive layers and the first semiconductor layer, and configured to be able to store electric charges. Each of the plurality of first conductive layers includes: a bottom portion extending in parallel to the substrate; and a side portion extending upward with respect to the substrate along the protruding layer at the bottom portion. The protruding layer has a width in a first direction parallel to the substrate that is less than or equal to its length in a lamination direction. | 04-22-2010 |
20100109071 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device includes: a semiconductor substrate; a stacked body with a plurality of conductive layers and a plurality of dielectric layers alternately stacked, the stacked body being provided on the semiconductor substrate; a semiconductor layer provided inside a hole formed through the stacked body, the semiconductor layer extending in stacking direction of the conductive layers and the dielectric layers; and a charge storage layer provided between the conductive layers and the semiconductor layer. The stacked body in a memory cell array region including a plurality of memory strings is divided into a plurality of blocks by slits with an interlayer dielectric film buried therein, the memory string including as many memory cells series-connected in the stacking direction as the conductive layers, the memory cell including the conductive layer, the semiconductor layer, and the charge storage layer provided between the conductive layer and the semiconductor layer, and each of the block is surrounded by the slits formed in a closed pattern. | 05-06-2010 |
20100109072 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes a first stacked body on a silicon substrate, and a second stacked body is provided thereon. The first stacked body includes a plurality of insulating films alternately stacked with a plurality of electrode films, and a first portion of a through-hole extending in a stacking direction is formed. The second stacked body includes a plurality of insulating films alternately stacked with a plurality of electrode films, and a second portion of the through-hole is formed. A memory film is formed on an inner face of the through-hole, and a silicon pillar is buried in an interior of the through-hole. A central axis of the second portion of the through-hole is shifted from a central axis of the first portion, and a lower end of the second portion is positioned lower than an upper portion of the first portion. | 05-06-2010 |
20100117047 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device includes a plurality of memory element groups, each of the memory element groups having a plurality of memory elements, each of the memory elements having a resistance-change element and a Schottky diode connected in series. Each of the memory element groups includes: a first columnar layer extending in a lamination direction; a first insulation layer formed on a side surface of the first columnar layer and functioning as the resistance-change element; and a first conductive layer formed to surround the first columnar layer via the first insulation layer. The first conductive layer is formed of metal. The first columnar layer is formed of a semiconductor having such a impurity concentration that the first conductive layer and the semiconductor configure the Schottky diode. | 05-13-2010 |
20100117137 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - Each of memory strings is provided with a first semiconductor layer having a pair of columnar portions extending in a perpendicular direction with respect to a substrate; a charge storage layer formed to surround a side surface of the columnar portions; and a first conductive layer formed to surround the charge storage layer. Each of the select transistors is provided with a second semiconductor layer extending upwardly from an upper surface of the columnar portions; a gate insulating layer formed to surround a side surface of the second semiconductor layer; and a second conductive layer formed to surround the gate insulating layer. An effective impurity concentration of the second semiconductor layer is less than or equal to an effective impurity concentration of the first semiconductor layer. | 05-13-2010 |
20100118610 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A stacked body with a plurality of dielectric films and electrode films alternately stacked therein is provided. The electrode film is divided into a plurality of control gate electrodes extending in one direction. The stacked body is provided with a U-pillar penetrating through the select gate electrodes and the control gate electrodes, having one end connected to a source line, and having the other end connected to a bit line. Moreover, a different potential is applied to uppermost one of the control gate electrodes than that applied to the other control gate electrodes. | 05-13-2010 |
20100148237 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device includes a plurality of memory strings each having a plurality of electrically rewritable memory cells connected in series. Each of the memory strings comprising: a first semiconductor layer including a columnar portion extending in a vertical direction with respect to a substrate; a plurality of first conductive layers formed to surround side surfaces of the columnar portions via insulation layers, and formed at a certain pitch in the vertical direction, the first conductive layers functioning as floating gates of the memory cells; and a plurality of second conductive layers formed to surround the first conductive layers via insulation layers, and functioning as control electrodes of the memory cells. Each of the first conductive layers has a length in the vertical direction that is shorter than a length in the vertical direction of each of the second conductive layers. | 06-17-2010 |
20100171162 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - Each of memory strings comprising: a first semiconductor layer having a pair of columnar portions extending in a vertical direction to a substrate and a joining portion formed to join lower ends of the pair of columnar portions; an electric charge accumulation layer formed to surround a side surface of the first semiconductor layer; and a first conductive layer formed to surround a side surface of the electric charge accumulation layer. The columnar portions are aligned at a first pitch in a first direction orthogonal to the vertical direction, and arranged in a staggered pattern at a second pitch in a second direction orthogonal to the vertical and first directions. The first conductive layers are configured to be arranged at the first pitch in the first direction, and extend to curve in a wave-like fashion in the second direction along the staggered-pattern arrangement. | 07-08-2010 |
20100172189 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE - A non-volatile semiconductor storage device includes: a memory string including a plurality of memory cells connected in series; a first selection transistor having one end connected to one end of the memory string; a first wiring having one end connected to the other end of the first selection transistor; a second wiring connected to a gate of the first selection transistor. A control circuit is configured to boost voltages of the second wiring and the first wiring in the erase operation, while keeping the voltage of the first wiring greater than the voltage of the second wiring by a certain potential difference. The certain potential difference is a potential difference that causes a GIDL current. | 07-08-2010 |
20100181612 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes: forming a stacked body by alternately stacking a plurality of interlayer insulating films and a plurality of control gate electrodes; forming a through-hole extending in a stacking direction in the stacked body; etching a portion of the interlayer insulating film facing the through-hole via the through-hole to remove the portion; forming a removed portion; forming a first insulating film on inner faces of the through-hole and the portion in which the interlayer insulating films are removed; forming a floating gate electrode in the portion in which the interlayer insulating films are removed; forming a second insulating film so as to cover a portion of the floating gate electrode facing the through-hole; and burying a semiconductor pillar in the through-hole. | 07-22-2010 |
20100200906 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes: a semiconductor substrate; a multilayer structure; a semiconductor pillar; a third insulating film; and a fourth insulating film layer. The a multilayer structure is provided on the semiconductor substrate and including a plurality of constituent multilayer bodies stacked in a first direction perpendicular to a major surface of the semiconductor substrate. Each of the plurality of constituent multilayer bodies includes an electrode film provided parallel to the major surface, a first insulating film, a charge storage layer provided between the electrode film and the first insulating film, and a second insulating film provided between the charge storage layer and the electrode film. The semiconductor pillar penetrates through the multilayer structure in the first direction. The third insulating film is provided between the semiconductor pillar and the electrode film. The fourth insulating film is provided between the semiconductor pillar and the charge storage layer. | 08-12-2010 |
20100207190 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A nonvolatile semiconductor memory device, includes: a stacked body including a plurality of insulating films alternately stacked with a plurality of electrode films, the electrode films being divided to form a plurality of control gate electrodes aligned in a first direction; a plurality of semiconductor pillars aligned in a stacking direction of the stacked body, the semiconductor pillars being arranged in a matrix configuration along the first direction and a second direction intersecting the first direction to pierce the control gate electrodes; and a connection member connecting a lower end portion of one of the semiconductor pillars to a lower end portion of one other of the semiconductor pillars, an upper end portion of the one of the semiconductor pillars being connected to a source line, an upper end portion of the one other of the semiconductor pillars being connected to a bit line. At least some of the control gate electrodes are pierced by two of the semiconductor pillars adjacent to each other in the second direction. Two of the semiconductor pillars being connected to each other by the connection member pierce mutually different control gate electrodes. | 08-19-2010 |
20100207194 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes: a semiconductor substrate; a stacked body provided on the semiconductor substrate, the stacked body having electrode films and insulating films being alternately stacked; a first and second semiconductor pillars; and a first and second charge storage layers. The first and second semiconductor pillars are provided inside a through hole penetrating through the stacked body in a stacking direction of the stacked body. The through hole has a cross section of an oblate circle, when cutting in a direction perpendicular to the stacking direction. The first and second semiconductor pillars face each other in a major axis direction of the first oblate circle. The first and second semiconductor pillars extend in the stacking direction. The first and second charge storage layers are provided between the electrode film and the first and second semiconductor pillars, respectively. | 08-19-2010 |
20100213537 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A memory string comprises: a pair of columnar portions; a first insulating layer surrounding a side surface of the columnar portions; a charge storage layer surrounding a side surface of the first insulating layer; a second insulating layer surrounding a side surface of the charge storage layer; and a first conductive layer surrounding a side surface of the second insulating layer. A select transistor comprises: a second semiconductor layer extending from an upper surface of the columnar portions; a third insulating layer surrounding a side surface of the second semiconductor layer; a fourth insulating layer surrounding a side surface of the third insulating layer; and a second conductive layer surrounding a side surface of the fourth insulating layer. The first semiconductor layer is formed continuously in an integrated manner with the second semiconductor layer. The first insulating layer is formed continuously in an integrated manner with the third insulating layer. | 08-26-2010 |
20100219465 | SEMICONDUCTOR DEVICE - A semiconductor device has a substrate, a source region formed on the surface portion of the substrate, a first insulating layer formed on the substrate, a gate electrode formed on the first insulating layer, a second insulating layer formed on the gate electrode, a body section connected with the source region, penetrating through the first insulating layer, the gate electrode and the second insulating layer, and containing a void, a gate insulating film surrounding the body section, and formed between the body section and the gate electrode, and a drain region connected with the body section. | 09-02-2010 |
20100224928 | METHOD FOR MANUFACTURING NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A method for manufacturing a nonvolatile semiconductor memory device, the device including a stacked structural unit including a plurality of insulating films alternately stacked with a plurality of electrode films in a first direction and a semiconductor pillar piercing the stacked structural unit in the first direction, the method includes: forming a stacked unit including a core material film alternately stacked with a sacrificial film on a major surface of a substrate perpendicular to the first direction; making a trench in the stacked unit, the trench extending in the first direction and a second direction in a plane perpendicular to the first direction; filling a filling material into the trench; removing the sacrificial film to form a hollow structural unit, the hollow structural unit including a post unit supporting the core material film on the substrate, the post unit being made of the filling material; and forming the stacked structural unit by stacking one of the insulating films and one of the electrode films on a surface of the core material film exposed by removing the sacrificial film. | 09-09-2010 |
20100244119 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device, includes: a stacked structural unit including a plurality of insulating films alternately stacked with a plurality of electrode films in a first direction; a selection gate electrode stacked on the stacked structural unit in the first direction; an insulating layer stacked on the selection gate electrode in the first direction; a first semiconductor pillar piercing the stacked structural unit, the selection gate electrode, and the insulating layer in the first direction, a first cross section of the first semiconductor pillar having an annular configuration, the first cross section being cut in a plane orthogonal to the first direction; a first core unit buried in an inner side of the first semiconductor pillar, the first core unit being recessed from an upper face of the insulating layer; and a first conducting layer of the first semiconductor pillar provided on the first core unit to contact the first core unit. | 09-30-2010 |
20100244186 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device, includes: a stacked structural unit including a plurality of stacked component units stacked in a first direction, each of the stacked component units including a first conducting film made of a semiconductor of a first conductivity type provided perpendicular to the first direction and a first insulating film stacked in the first direction with the first conducting film; a semiconductor pillar piercing the stacked structural unit in the first direction and including a conducting region of a second conductivity type, the semiconductor pillar including a first region opposing each of the first conducting films, and a second region provided between the first regions with respect to the first direction, the second region having a resistance different from a resistance of the first region; and a second insulating film provided between the semiconductor pillar and the first conducting film. | 09-30-2010 |
20100276743 | SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A laminated body is formed by alternately laminating a plurality of dielectric films and electrode films on a silicon substrate. Next, a through hole extending in the lamination direction is formed in the laminated body. Next, a selective nitridation process is performed to selectively form a charge layer made of silicon nitride in a region of an inner surface of the through hole corresponding to the electrode film. Next, a high-pressure oxidation process is performed to form a block layer made of silicon oxide between the charge layer and the electrode film. Next, a tunnel layer made of silicon oxide is formed on an inner side surface of the through hole. Thus, a flash memory can be manufactured in which the charge layer is split for each electrode film. | 11-04-2010 |
20100320526 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes: a semiconductor substrate; a memory unit; and a circuit unit provided between the semiconductor substrate and the memory unit. The memory unit includes: a stacked structural unit having electrode films alternately stacked with inter-electrode-film insulating films; a semiconductor pillar piercing the stacked structural unit; and a storage unit provided corresponding to an intersection between the electrode films and the semiconductor pillar. The circuit unit includes first and second transistors having different conductivity type, a first interconnect, and first and second contact plugs. The first interconnect includes silicide provided on a side of the first and second transistors opposite to the semiconductor substrate. The first contact plug made of polysilicon of the first conductivity type connects the first interconnect to the first transistor. The second contact plug made of polysilicon of the second conductivity type connects the first interconnect to the second transistor. | 12-23-2010 |
20100327339 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A semiconductor memory device provided with a cell array section and a peripheral circuit section, the device includes: a back gate electrode; a stacked body provided on the back gate electrode; a plurality of semiconductor pillars extending in a stacking direction; connection members, each of the connection members connecting one of the semiconductor pillars to another one of the semiconductor pillars; a back-gate electrode contact applying a potential to the back gate electrode; a gate electrode provided in the peripheral circuit section; and a gate electrode contact applying a potential to the gate electrode, the back gate electrode and the gate electrode respectively including: a lower semiconductor layer; a conductive layer provided on the lower semiconductor layer; and an upper semiconductor layer provided on the conductive layer, the connection members being provided in or on the upper semiconductor layer, the back-gate electrode contact and the gate electrode contact being in contact with the conductive layer. | 12-30-2010 |
20110002172 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device includes: a memory unit; and a control unit. The memory unit includes a multilayer structure including electrode films and inter-electrode insulating films alternately stacked in a first direction; a semiconductor pillar piercing the multilayer structure in the first direction; a memory layer provided between the semiconductor pillar and the electrode films; a inner insulating film provided between the memory layer and the semiconductor pillar; a outer insulating film provided between the memory layer and the electrode films; and a wiring electrically connected to the first semiconductor pillar. In erasing operation, the control unit sets the first wiring at a first potential and sets the electrode film at a second potential lower than the first potential, and then sets the first wiring at a third potential and sets the electrode film at a fourth potential higher than the third potential. | 01-06-2011 |
20110019480 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device, includes: a stacked structural unit including electrode films alternately stacked with inter-electrode insulating films; a first and second semiconductor pillars piercing the stacked structural unit; a connection portion semiconductor layer to electrically connect the first and second semiconductor pillars; a connection portion conductive layer opposing the connection portion semiconductor layer; a memory layer, an inner insulating film, and an outer insulating film provided between the first and second semiconductor layers and the electrode films and between the connection portion semiconductor layer and the connection portion conductive layer. At least a portion of a face of the connection portion conductive layer opposing the outer insulating film is a curved surface having a recessed configuration on a side of the outer insulating film. | 01-27-2011 |
20110075481 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device comprises: a bit line; a source line; a memory string having a plurality of electrically data-rewritable memory transistors connected in series; a first select transistor provided between one end of the memory string and the bit line; a second select transistor provided between the other end of the memory string and the source line; and a control circuit configured to control a read operation. A plurality of the memory strings connected to one bit line via a plurality of the first select transistors. During reading of data from a selected one of the memory strings, the control circuit renders conductive the first select transistor connected to an unselected one of the memory strings and renders non-conductive the second select transistor connected to unselected one of the memory strings. | 03-31-2011 |
20110084331 | SEMICONDUCTOR DEVICE - A semiconductor device has a substrate, a source region formed on the surface portion of the substrate, a first insulating layer formed on the substrate, a gate electrode formed on the first insulating layer, a second insulating layer formed on the gate electrode, a body section connected with the source region, penetrating through the first insulating layer, the gate electrode and the second insulating layer, and containing a void, a gate insulating film surrounding the body section, and formed between the body section and the gate electrode, and a drain region connected with the body section. | 04-14-2011 |
20110111579 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device has a plurality of memory strings with a plurality of electrically rewritable memory cells connected in series. Each of the memory strings includes: a memory columnar semiconductor extending in a direction perpendicular to a substrate; a tunnel insulation layer contacting the memory columnar semiconductor; a charge accumulation layer contacting the tunnel insulation layer and accumulating charges; a block insulation layer contacting the charge accumulation layer; and a plurality of memory conductive layers contacting the block insulation layer. The lower portion of the charge accumulation layer is covered by the tunnel insulation layer and the block insulation layer. | 05-12-2011 |
20110127597 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device with charge storage layers with high reliability is provided. A plurality of insulating films and a plurality of electrode films 14 are alternately stacked on a substrate 11, and a plurality of selection gate electrodes 17 extending in the X direction and a plurality of bit lines BL extending in the Y direction are provided thereon. U-shaped silicon members 33 are provided, each of which is constituted by a plurality of silicon pillars 31 passing through the electrode films 14 and the selection gate electrode 17, whose upper ends are connected to the bit lines BL, and a connective member 32 connecting lower parts of one pair of the silicon pillars 31 disposed in diagonal positions. The electrode film 14 of each layer is divided for the respective selection gate electrodes 17. One pair of the silicon pillars 31 connected to one another through the connective member 32 are caused to pass through the different electrode films 14 and the different selection gate electrodes 17. All of the U-shaped silicon members 33 connected commonly to one bit line BL are commonly connected to another bit line BL. | 06-02-2011 |
20110175159 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE - Each of the memory blocks includes: a first conductive layer expanding in parallel to the substrate over the first area, n layers of the first conductive layers being formed in a lamination direction and shared by the plurality of memory strings; a first semiconductor layer; and an electric charge accumulation layer. The memory strings are arranged with m columns in a second direction for each of the memory blocks. The wiring layers are arranged in the second direction, formed to extend to the vicinity of one end of the first conductive layer in the first direction from one side of the memory block, and connected via contact plugs to the first conductive layers. A relation represented by (Formula 1) is satisfied: (Formula 1) m>=n | 07-21-2011 |
20110284947 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - A nonvolatile semiconductor memory device that have a new structure are provided, in which memory cells are laminated in a three dimensional state so that the chip area may be reduced. The nonvolatile semiconductor memory device of the present invention is a nonvolatile semiconductor memory device that has a plurality of the memory strings, in which a plurality of electrically programmable memory cells is connected in series. The memory strings comprise a pillar shaped semiconductor; a first insulation film formed around the pillar shaped semiconductor; a charge storage layer formed around the first insulation film; the second insulation film formed around the charge storage layer; and first or nth electrodes formed around the second insulation film (n is natural number more than 1). The first or nth electrodes of the memory strings and the other first or nth electrodes of the memory strings are respectively the first or nth conductor layers that are spread in a two dimensional state. | 11-24-2011 |
20110287597 | Nonvolatile semicondutor memory device and manufacturing method thereof - A nonvolatile semiconductor memory device that have a new structure are provided, in which memory cells are laminated in a three dimensional state so that the chip area may be reduced. The nonvolatile semiconductor memory device of the present invention is a nonvolatile semiconductor memory device that has a plurality of the memory strings, in which a plurality of electrically programmable memory cells is connected in series. The memory strings comprise a pillar shaped semiconductor; a first insulation film formed around the pillar shaped semiconductor; a charge storage layer formed around the first insulation film; the second insulation film formed around the charge storage layer; and first or nth electrodes formed around the second insulation film (n is natural number more than 1). The first or nth electrodes of the memory strings and the other first or nth electrodes of the memory strings are respectively the first or nth conductor layers that are spread in a two dimensional state. | 11-24-2011 |
20120064683 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A multilayer body is formed by alternately stacking electrode films serving as control gates and dielectric films in a direction orthogonal to an upper surface of a silicon substrate. Trenches extending in the word line direction are formed in the multilayer body and a memory film is formed on an inner surface of the trench. Subsequently, a silicon body is buried inside the trench, and a charge storage film and the silicon body are divided in the word line direction to form silicon pillars. This simplifies the configuration of memory cells in the bit line direction, and hence can shorten the arrangement pitch of the silicon pillars, decreasing the area per memory cell. | 03-15-2012 |
20130121081 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device includes a memory unit and a control unit. The memory unit includes a multilayer structure including electrode films and inter-electrode insulating films alternately stacked in a first direction; a semiconductor pillar piercing the multilayer structure in the first direction; a memory layer provided between the semiconductor pillar and the electrode films; an inner insulating film provided between the memory layer and the semiconductor pillar; an outer insulating film provided between the memory layer and the electrode films; and a wiring electrically connected to the first semiconductor pillar. In an erasing operation, the control unit sets the first wiring at a first potential and sets the electrode film at a second potential lower than the first potential, and then sets the first wiring at a third potential and sets the electrode film at a fourth potential higher than the third potential. | 05-16-2013 |
20130223149 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes: forming a stacked body by alternately stacking a plurality of interlayer insulating films and a plurality of control gate electrodes; forming a through-hole extending in a stacking direction in the stacked body; etching a portion of the interlayer insulating film facing the through-hole via the through-hole to remove the portion; forming a removed portion; forming a first insulating film on inner faces of the through-hole and the portion in which the interlayer insulating films are removed; forming a floating gate electrode in the portion in which the interlayer insulating films are removed; forming a second insulating film so as to cover a portion of the floating gate electrode facing the through-hole; and burying a semiconductor pillar in the through-hole. | 08-29-2013 |
20130228850 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device includes: a semiconductor substrate; a stacked body provided on the semiconductor substrate, the stacked body having electrode films and insulating films being alternately stacked; a first and second semiconductor pillars; and a first and second charge storage layers. The first and second semiconductor pillars are provided inside a through hole penetrating through the stacked body in a stacking direction of the stacked body. The through hole has a cross section of an oblate circle, when cutting in a direction perpendicular to the stacking direction. The first and second semiconductor pillars face each other in a major axis direction of the first oblate circle. The first and second semiconductor pillars extend in the stacking direction. The first and second charge storage layers are provided between the electrode film and the first and second semiconductor pillars, respectively. | 09-05-2013 |
20140117434 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - A nonvolatile semiconductor memory device, includes: a stacked structural unit including a plurality of insulating films alternately stacked with a plurality of electrode films in a first direction; a selection gate electrode stacked on the stacked structural unit in the first direction; an insulating layer stacked on the selection gate electrode in the first direction; a first semiconductor pillar piercing the stacked structural unit, the selection gate electrode, and the insulating layer in the first direction, a first cross section of the first semiconductor pillar having an annular configuration, the first cross section being cut in a plane orthogonal to the first direction; a first core unit buried in an inner side of the first semiconductor pillar, the first core unit being recessed from an upper face of the insulating layer; and a first conducting layer of the first semiconductor pillar provided on the first core unit to contact the first core unit. | 05-01-2014 |