A method for producing a 3D semiconductor device including: providing a first level, the first level including a first single crystal layer; forming first alignment marks and control circuits in and/or on the first level, where the control circuits include first single crystal transistors and at least two interconnection metal layers; forming at least one second level disposed above the control circuits; performing a first etch step into the second level; forming at least one third level disposed on top of the second level; performing additional processing steps to form first memory cells within the second level and second memory cells within the third level, where each of the first memory cells include at least one second transistor, where each of the second memory cells include at least one third transistor, performing bonding of the first level to the second level, where the bonding includes oxide to oxide bonding.

A semiconductor device includes a stacked structure including conductive layers and insulating layers alternately stacked with each other, and a channel layer passing through the stacked structure, wherein the channel layer is a single layer, the single layer including a first GIDL region, a cell region, and a second GIDL region, and the first GIDL region has a greater thickness than each of the cell region and the second GIDL region.

A variable resistance memory device includes: a supporting layer including an insulating material; a variable resistance layer on the supporting layer and including a first layer including a metal oxide and metal nanoparticles, the variable resistance layer including a second layer on the first layer and including an oxide; a channel layer on the variable resistance layer; a gate insulating layer on the channel layer; and a gate electrode on the gate insulating layer. The metal nanoparticles in the variable resistance layer include a first metal capable of combining with oxygen ions of the metal oxide, thereby increasing oxygen vacancies.

A memory cell is disclosed. The memory cell includes a storage component that includes a chalcogenide stack that includes a plurality of layers of material and a selector component that includes a Schottky diode.

A non-volatile memory includes a first semiconductor layer vertically stacked on a second semiconductor layer and including a first memory group, a second memory group, a third memory group and a fourth memory group. The second semiconductor layer includes a first region, a second region, a third region and a fourth region respectively underlying the first memory group, second memory group, third memory group and fourth memory group. The first region includes one driving circuit connected to memory cells of one of the second memory group, third memory group and fourth memory group through a first word line, and another driving circuit connected to memory cells of the first memory group through a first bit line, wherein the first word line and first bit line extend in the same horizontal direction.

A three-dimensional semiconductor memory device includes first conductive lines extending horizontally in a first direction, a second conductive line extending vertically in a second direction perpendicular to the first direction, and memory cells at cross-points between the first conductive lines and the second conductive line. The first conductive lines are laterally spaced apart from each other in a third direction crossing the first direction. Each of the memory cells includes a variable resistance element and a switching element that are horizontally arranged. The variable resistance element includes a first variable resistance pattern and a second variable resistance pattern arranged in the second direction, a first electrode between the first variable resistance pattern and the first conductive line, a second electrode between the second variable resistance pattern and the second conductive line, and a third electrode between the first variable resistance pattern and the second variable resistance pattern.

A semiconductor device includes a lower structure, a stack structure including gate layers and interlayer insulating layers alternately stacked on the lower structure in a first direction, and a channel structure in a channel hole passing through the stack structure. The channel structure includes a variable resistance material layer in the channel hole, a data storage material layer between the variable resistance material layer and a sidewall of the channel hole, and a channel layer between the data storage material layer and the sidewall of the channel hole, the channel layer includes a first element, the variable resistance material layer includes a second element, different from the first element, oxygen, and oxygen vacancies, and the data storage material layer includes the first element, the second element, oxygen, and oxygen vacancies.

A semiconductor device includes gate electrodes on a substrate, a channel and a resistance pattern. The gate electrodes are spaced apart from each other in a vertical direction substantially perpendicular to an upper surface of the substrate. The channel extends through the gate electrodes in the vertical direction on the substrate. The resistance pattern includes a phase-changeable material. The resistance pattern includes a first vertical extension portion on a sidewall of the channel and extending in the vertical direction, a first protrusion portion on an inner sidewall of the first vertical extension portion and protruding in a horizontal direction substantially parallel to the upper surface of the substrate, and a second protrusion portion on an outer sidewall of the first vertical extension portion and protruding in the horizontal direction and not overlapping the first protrusion portion in the horizontal direction.

A nonvolatile memory includes a first memory cell and a second memory cell above the first memory cell. The first memory cell includes a variable resistance layer extending in a first direction, a semiconductor layer extending in the first direction and in contact with the variable resistance layer, an insulator layer extending in the first direction and in contact with the semiconductor layer, and a first voltage applying electrode extending in a second direction and in contact with the insulator layer. The second memory cell includes a second voltage applying electrode in contact with the insulator layer. When a write operation is performed on the first memory cell, a first voltage is applied to the second voltage applying electrode, and when a write operation is performed on the second memory cell, a second voltage, lower than the first voltage, is applied to the first voltage applying electrode.

A semiconductor device includes a stack structure, a channel layer passing through the stack structure, a memory layer enclosing the channel layer and including first and second openings which expose the channel layer, a well plate coupled to the channel layer through the first opening, and a source plate coupled to the channel layer through the second opening.