A bonded assembly includes a memory die that is bonded to a logic die. The memory die includes a three-dimensional memory array located on a memory-side substrate, memory-side dielectric material layers located on the three-dimensional memory array and embedding memory-side metal interconnect structures and memory-side bonding pads, a backside peripheral circuit located on a backside surface of the memory-side substrate, and backside dielectric material layers located on a backside of the memory-side substrate and embedding backside metal interconnect structures. The logic die includes a logic-side peripheral circuit located on a logic-side substrate, and logic-side dielectric material layers located between the logic-side substrate and the memory die and embedding logic-side metal interconnect structures and logic-side bonding pads that are bonded to a respective one of the memory-side bonding pads.

In certain aspects, a circuit for power leakage blocking can include a voltage generation circuit that includes an amplifier connected at a negative input to a reference voltage and providing an output to a gate of a first transistor. A drain voltage of the first transistor can be fed back to a positive input of the amplifier. The voltage generation circuit can receive a first voltage at a source of the first transistor. The voltage generation circuit can supply a second voltage at a drain of the first transistor. The circuit can further include a pair of transistors. The pair of transistors can include a second transistor and a third transistor. Respective bulks of the pair of transistors can be connected to a bulk of the first transistor. The gates of the pair of transistors can be controlled according to a comparison between the first voltage and the second voltage, such that only one of the pair of transistors is on at a time.

A semiconductor device of the disclosure includes a peripheral circuit structure including a peripheral transistor, a semiconductor layer on the peripheral circuit structure, a source structure on the semiconductor layer, a gate stack structure on the source structure, the gate stack structure including a word line, a gate upper line and a staircase structure, a memory channel structure and a dummy channel structure extending through the gate stack structure, a cut structure extending through the gate upper line, and a bit line overlapping with the memory channel structure. The cut structure includes a narrow section, and a wide section nearer to the staircase structure than the narrow section. A width of the narrow section is less than a width of the wide section.

A semiconductor device includes: a substrate; a first semiconductor chip; a first adhesive layer; a second semiconductor chip; a second adhesive layer; and a spacer. The substrate has a first surface. The first semiconductor chip is provided above the first surface. The first adhesive layer is provided on a lower surface, which is opposed to the substrate, of the first semiconductor chip and contains a plurality of types of resins different in molecular weight. The second semiconductor chip is provided between the substrate and the first adhesive layer. The second adhesive layer covers surroundings of the second semiconductor chip in a view from a normal direction of a first surface, and contains at least one type of the resin lower in molecular weight than the other resins among the plurality of types of resins contained in the first adhesive layer. The spacer covers surroundings of the second adhesive layer in the view from the normal direction of the first surface.

A memory device includes a substrate, a first transistor, a second transistor, and a capacitor. The first transistor is over the substrate and includes a select gate. The second transistor is over the substrate and connected to the first transistor in series, in which the second transistor includes a floating gate. The capacitor is over the substrate and connected to the second transistor, wherein the capacitor includes a top electrode, a bottom electrode in the substrate, and an insulating layer between the top electrode and the bottom electrode. The insulating layer includes nitrogen. A nitrogen concentration of the insulating layer increases in a direction from the top electrode to the bottom electrode.

A semiconductor device includes a peripheral circuit structure including a lower substrate, a plurality of circuits formed on the lower substrate, and a plurality of wiring layers connected to the plurality of circuits, an upper substrate covering the peripheral circuit structure and including a through opening, a memory stack structure including a plurality of gate lines, a memory cell contact passing through at least one of the plurality of gate lines to contact one gate line from among the plurality of gate lines, the memory cell contact extending to the peripheral circuit structure through the through opening and being configured to be electrically connected to a first wiring layer from among the plurality of wiring layers, and a plurality of dummy channel structures passing through at least one of the plurality of gate lines to extend to the peripheral circuit structure through the through opening.

A three-dimensional semiconductor device may include a substrate including a cell array region and a contact region, a stack structure including interlayer dielectric layers and gate electrodes, a source structure, and a mold structure between the substrate and the stack structure. First vertical channel structures are on the cell array region in vertical channel holes. Each of the first vertical channel structures may include a first barrier pattern, a data storage pattern, and a vertical semiconductor pattern, which are sequentially layered on an inner side surface of one of the vertical channel holes. The mold structure may include a first buffer insulating layer, a first semiconductor layer, a second buffer insulating layer, and a second semiconductor layer sequentially stacked on the substrate. The source structure may be in physical contact with a portion of a side surface of the vertical semiconductor pattern.

A three-dimensional semiconductor memory device includes a first substrate, a peripheral circuit structure on the first substrate, a cell array structure on the peripheral circuit structure, the cell array structure including a stack structure having alternating interlayer dielectric layers and gate electrodes, a first insulating layer covering the stack structure, and a second substrate on the stack structure and the first insulating layer, the stack structure being between a bottom surface of the second substrate and the peripheral circuit structure, a second insulating layer on the cell array structure, a first penetration contact penetrating the first insulating layer, the second substrate, and the second insulating layer, and a second penetration contact penetrating the first insulating layer and the second insulating layer, the second penetration contact being spaced apart from the second substrate, and the first and second penetration contacts having widths decreasing with increasing distance from the first substrate.

A 3D semiconductor device including: a first level including a plurality of first single-crystal transistors; a plurality of memory control circuits formed from at least a portion of the plurality of first single-crystal transistors; a first metal layer disposed atop the plurality of first single-crystal transistors; a second metal layer disposed atop the first metal layer; a second level disposed atop the second metal layer, the second level including a plurality of second transistors; a third level including a plurality of third transistors, where the third level is disposed above the second level; a third metal layer disposed above the third level; and a fourth metal layer disposed above the third metal layer, where the plurality of second transistors are aligned to the plurality of first single crystal transistors with less than 140 nm alignment error, the second level includes first memory cells, the third level includes second memory cells.

A semiconductor device may include a plurality of first contact structures, plug-shaped second contact structures configured to be connected to a first number of the plurality of first contact structures, respectively, a slit-shaped second contact structure configured to be connected to a second number of the plurality of first contact structures, adjacent in a first direction, and a third contact structure configured to be connected to sidewalls of the plug-shaped second contact structures, adjacent in the first direction.