摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
A method for manufacturing a nonvolatile semiconductor storage device, including: forming a first conductive layer so that it is sandwiched in an up-down direction by first insulating layers; forming a first hole so that it penetrates the first insulating layers and the first conductive layer; forming a first side wall insulating layer on a side wall facing the first hole; forming a sacrificing layer so that the sacrificing layer infills the first hole; forming a second conductive layer on an upper layer of the sacrificing layer so that the second conductive layer is sandwiched by the second insulating layer in an up-down direction; forming a second hole on a position which matches with the first hole so that the second hole penetrates the second insulating layer and the second conductive layer; forming a second side wall insulating layer on a side wall facing the second hole; removing the sacrificing layer after the formation of the second side wall insulating layer; and forming a semiconductor layer so that the semiconductor layer infills the first hole and the second hole after the removal of the sacrificing layer
摘要:
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.
摘要:
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.