A nonvolatile memory device includes a substrate including a cell array region, a first gate electrode including an opening on the cell array region of the substrate, a plurality of second gate electrodes stacked above the first gate electrode and including convex portions having an outward curve extending toward the substrate, and a word line cutting region cutting the opening and the convex portions.

A nonvolatile memory device includes a substrate including a cell array region, a first gate electrode including an opening on the cell array region of the substrate, a plurality of second gate electrodes stacked above the first gate electrode and including convex portions having an outward curve extending toward the substrate, and a word line cutting region cutting the opening and the convex portions.

There are provided a semiconductor memory device and a manufacturing method of the semiconductor memory device. The semiconductor device includes: a first stack structure including interlayer insulating layers and first conductive patterns, which are alternately stacked; a second stack structure including a second conductive pattern overlapping with the first stack structure, and a third conductive pattern overlapping with the first stack structure with the second conductive pattern interposed between the first stack structure and the third conductive pattern, the third conductive pattern having an oxidation rate different from that of the second conductive pattern; channel structures penetrating the first stack structure and the second stack structure; and a bit line overlapping with the first stack structure with the second stack structure interposed between the first stack structure and the bit line.

A semiconductor device includes a substrate having a first region and a second region, a first stack structure in the first region, a first channel structure penetrating through the first stack structure and in contact with the substrate, and a second stack structure on the first stack structure and the first channel structure. The device includes a second channel structure penetrating through the second stack structure and connected to the first channel structure, a first molding structure in the second region, a first alignment structure penetrating through the first molding structure and in contact with the substrate, and a second molding structure on the first molding structure and the first alignment structure. The device includes a second alignment structure penetrating through the second molding structure and connected to the first alignment structure, and a protective layer between the first molding structure and the second molding structure.

A semiconductor device includes a substrate having a first region and a second region, a first stack structure in the first region, a first channel structure penetrating through the first stack structure and in contact with the substrate, and a second stack structure on the first stack structure and the first channel structure. The device includes a second channel structure penetrating through the second stack structure and connected to the first channel structure, a first molding structure in the second region, a first alignment structure penetrating through the first molding structure and in contact with the substrate, and a second molding structure on the first molding structure and the first alignment structure. The device includes a second alignment structure penetrating through the second molding structure and connected to the first alignment structure, and a protective layer between the first molding structure and the second molding structure.

A semiconductor device includes: circuit devices on a first substrate; a lower interconnection structure electrically connected to the circuit devices; a lower bonding structure connected to the lower interconnection structure; an upper bonding structure on the lower bonding structure; an upper interconnection structure connected to the upper bonding structure; a second substrate on the upper interconnection structure; gate electrodes between the upper interconnection structure and the second substrate; channel structures penetrating the gate electrodes and each including a channel layer; via patterns on the second substrate; a source contact plug spaced apart from the second substrate on an external side of the second substrate and having an upper surface higher than the second substrate and a lower surface lower than a lowermost gate electrode; and a source connection pattern contacting upper surfaces of each of the via patterns and the upper surface of the source contact plug.

According to example embodiments, an integrated circuit includes a continuous active region extending in a first direction, a tie gate electrode extending in a second direction crossing the first direction on the continuous active region, a source/drain region provided adjacent the tie gate electrode, a tie gate contact extending in a third direction perpendicular to the first direction and the second direction on the continuous active region and connected to the tie gate electrode, a source/drain contact extending in the third direction and connected to the source/drain region, and a wiring pattern connected to each of the tie gate contact and the source/drain contact and extending in a horizontal direction. A positive supply power is applied to the wiring pattern.

There are provided a semiconductor memory device and a manufacturing method of the semiconductor memory device. The semiconductor memory device includes a metal pattern including a first line part extending in a first direction and a second line part which is connected to the first line part and extends in a second direction to intersect with the first line part, and a source structure which has a trench. The metal pattern is formed in the trench and the source structure is in contact with a sidewall of the metal pattern.

A semiconductor device includes a stack structure having gate electrodes and interlayer insulating layers, the stack structure having a cell region and a step region, and the gate electrodes extending in a first direction to have a step shape in the step region, channel structures through the stack structure in the cell region, separation structures through the stack structure and extending in the first direction, and support structures between the separation structures and through the stack structure in the step region. The step region includes first and second regions, the first region closer to the cell region in the first direction than the second region is, the support structures include first and second support structures through the stack structure in the first and second regions, respectively, a maximum width of the first support structure being greater than that of the second support structure.

A semiconductor device includes a stack structure having gate electrodes and interlayer insulating layers, the stack structure having a cell region and a step region, and the gate electrodes extending in a first direction to have a step shape in the step region, channel structures through the stack structure in the cell region, separation structures through the stack structure and extending in the first direction, and support structures between the separation structures and through the stack structure in the step region. The step region includes first and second regions, the first region closer to the cell region in the first direction than the second region is, the support structures include first and second support structures through the stack structure in the first and second regions, respectively, a maximum width of the first support structure being greater than that of the second support structure.