A semiconductor device of an embodiment includes first and second structures arranged in a first hierarchy, in which the first and second structures are repeatedly arranged in a first direction along a plane of the first hierarchy, and a distance between geometric centers of the first and second structures in a minimum unit of repetition of the first and second structures differs between a first position and a second position in the first direction.

Three-dimensional semiconductor memory devices and methods of fabricating the same. The three-dimensional semiconductor devices include an electrode structure with sequentially-stacked electrodes disposed on a substrate, semiconductor patterns penetrating the electrode structure, and memory elements including a first pattern and a second pattern interposed between the semiconductor patterns and the electrode structure, the first pattern vertically extending to cross the electrodes and the second pattern horizontally extending to cross the semiconductor patterns.

Three-dimensional semiconductor memory devices and methods of fabricating the same. The three-dimensional semiconductor devices include an electrode structure with sequentially-stacked electrodes disposed on a substrate, semiconductor patterns penetrating the electrode structure, and memory elements including a first pattern and a second pattern interposed between the semiconductor patterns and the electrode structure, the first pattern vertically extending to cross the electrodes and the second pattern horizontally extending to cross the semiconductor patterns.

A memory device includes a first semiconductor structure and a second semiconductor structure. The memory device further includes a bonding structure between the first semiconductor structure and the second semiconductor structure, the bonding structure comprising a first bonding pattern and a second bonding pattern in contact with each other, the first semiconductor structure being electrically connected with the second semiconductor structure through the bonding structure. The memory device further includes a shielding structure between the first semiconductor structure and the second semiconductor structure and surrounding the bonding structure, the shielding structure comprising a third bonding pattern and a fourth bonding pattern in contact with each other, the shielding structure being electrically connected with a biased voltage.

A memory device includes a first semiconductor structure and a second semiconductor structure. The memory device further includes a bonding structure between the first semiconductor structure and the second semiconductor structure, the bonding structure comprising a first bonding pattern and a second bonding pattern in contact with each other, the first semiconductor structure being electrically connected with the second semiconductor structure through the bonding structure. The memory device further includes a shielding structure between the first semiconductor structure and the second semiconductor structure and surrounding the bonding structure, the shielding structure comprising a third bonding pattern and a fourth bonding pattern in contact with each other, the shielding structure being electrically connected with a biased voltage.

Some embodiments include a memory cell having charge-trapping-material between a semiconductor channel material and a gating region. The charge-trapping-material includes silicon, nitrogen and trap-enhancing-additive. The trap-enhancing-additive includes one or more of carbon, phosphorus, boron and metal. Some embodiments include an integrated assembly having a stack of alternating first and second levels. The first levels include conductive structures and the second levels are insulative. Channel-material-pillars extend through the stack. Charge-trapping-regions are along the channel-material-pillars and are between the channel-material-pillars and the conductive structures. The charge-trapping-regions include a charge-trapping-material which contains silicon, nitrogen and trap-enhancing-additive. The trap-enhancing-additive includes one or more of carbon, phosphorus, boron and metal.

Some embodiments include a memory cell having charge-trapping-material between a semiconductor channel material and a gating region. The charge-trapping-material includes silicon, nitrogen and trap-enhancing-additive. The trap-enhancing-additive includes one or more of carbon, phosphorus, boron and metal. Some embodiments include an integrated assembly having a stack of alternating first and second levels. The first levels include conductive structures and the second levels are insulative. Channel-material-pillars extend through the stack. Charge-trapping-regions are along the channel-material-pillars and are between the channel-material-pillars and the conductive structures. The charge-trapping-regions include a charge-trapping-material which contains silicon, nitrogen and trap-enhancing-additive. The trap-enhancing-additive includes one or more of carbon, phosphorus, boron and metal.

A three-dimensional semiconductor device includes a first substrate; a plurality of first transistors on the first substrate; a second substrate on the plurality of first transistors; a plurality of second transistors on the second substrate; and an interconnection portion electrically connecting the plurality of first transistors and the plurality of second transistors. Each of the plurality of first transistors includes a first gate insulating film on the first substrate and having a first hydrogen content. Each of the plurality of second transistors includes a second gate insulating film on the second substrate and having a second hydrogen content. The second hydrogen content is greater than the first hydrogen content.

A three-dimensional semiconductor device includes a first substrate; a plurality of first transistors on the first substrate; a second substrate on the plurality of first transistors; a plurality of second transistors on the second substrate; and an interconnection portion electrically connecting the plurality of first transistors and the plurality of second transistors. Each of the plurality of first transistors includes a first gate insulating film on the first substrate and having a first hydrogen content. Each of the plurality of second transistors includes a second gate insulating film on the second substrate and having a second hydrogen content. The second hydrogen content is greater than the first hydrogen content.

Described is a memory device including a plurality of memory cells formed around a memory hole extending through a memory stack on a substrate. Each of the plurality of memory cells comprises a discrete blocking oxide layer, a charge trap layer, and a tunnel oxide layer. The blocking oxide layer is discrete between each of the plurality of memory cells. The tunnel oxide layer is continuous between each of the plurality of memory cells, and the charge trap layer is discrete between each of the plurality of memory cells. The charge trap layer has a first thickness on a top portion and a second thickness on a center portion, the first thickness different than the second thickness.