Phase change memory devices and methods of forming the same include forming a fin structure from a first material. A phase change memory cell is formed around the fin structure, using a phase change material that includes two solid state phases at an operational temperature.

An elementary cell includes a device and a non-volatile resistive memory mounted in a series, the device including an upper selector electrode, a lower selector electrode, a layer made up of a first active material, referred to as an active selecting layer, the device being intended to form a volatile selector; the memory including an upper memory electrode, a lower memory electrode, a layer made of at least a second active material, referred to as an active memory layer, the active selecting layer being in a conductive crystalline state and the memory being in a very strongly resistive state that is more resistive than the strongly resistive state of the memory.

A memory device includes a plurality of first conductive lines on a substrate and extending in a first direction, a plurality of second conductive lines on the plurality of first conductive lines and extending in a second direction intersecting the first direction, and a plurality of memory cells respectively between the plurality of first conductive lines and the plurality of second conductive lines. Each of the plurality of memory cells includes a switching element and a variable resistance material layer. The switching element includes a material having a composition of [Ge.sub.X P.sub.Y Se.sub.Z].sub.(1-W) [O].sub.W, where 0.15≤X≤0.50, 0.15≤Y≤0.50, 0.35≤Z≤0.70, and 0.01≤W≤0.10.

A semiconductor memory device includes a first interconnect, a second interconnect, a first storage layer, and a first insulating film. The first insulating film is provided along a surface of a part of the second interconnect and a surface of the first storage layer. The first insulating film is composed of Si, N, and O. The atomic ratio (N/O) between N and O in the first insulating film is not less than 1.0 at a first position which is the position of the second interconnect-side end surface of the first storage layer in a third direction. The atomic ratio (N/O) between N and O in the first insulating film is less than 1.0 at a second position which is the position of the end surface of the second interconnect, opposite to the first storage layer-side end surface, in the third direction.

An electrical device comprising a reconfigurable integrated circuit that includes paired top electrodes and bottom electrodes separated from each other by an active layer.

An electronic device including a semiconductor memory is provided. The semiconductor memory includes a plurality of first lines extending in a first direction; a plurality of second lines over the first lines, the second lines extending in a second direction crossing the first direction; a plurality of memory cells disposed at intersection regions of the first lines and the second lines between the first lines and the second lines in a third direction perpendicular to the first and second directions; and a heat sink positioned between two memory cells adjacent to each other in a diagonal direction with respect to the first and second directions.

A semiconductor device includes a semiconductor substrate, a peripheral device on the semiconductor substrate, a lower insulating structure on the semiconductor substrate and covering the peripheral device, a first conductive line on the lower insulating structure, a memory cell structure on the first conductive line, and a second conductive line on the memory cell structure. The memory cell structure may include an information storage material pattern and a selector material pattern on the lower insulating structure in a vertical direction. The selector material pattern may include a first selector material layer including a first material and a second selector material layer including a second material. The second selector material layer may have a threshold voltage drift higher than that of the first material. The second selector material layer may have a second width narrower than a first width of the first selector material layer.

A device for implementing spike-timing-dependent plasticity is provided. The device includes a phase-change element, first and second electrodes disposed respective first and second surfaces of the phase-change element. The phase-change element includes a phase-change material with an inverse resistivity characteristic. The first electrode includes a first heater element, and a first electrical insulating layer which electrically insulates the first resistive heater element from the first electrode and the phase-change element. The second electrode includes a second resistive heater element, and a second electrical insulating layer which electrically insulates the second resistive heater element from the second electrode and the phase-change element.

A memory cell includes a memory device, a connecting structure, an insulating layer and a selector. The connecting structure is disposed on and electrically connected to the memory device. The insulating layer covers the memory device and the connecting structure. The selector is located on and electrically connected to the memory device, where the selector is disposed on the insulating layer and connected to the connecting structure by penetrating through the insulating layer.

A multi-level cell (MLC) one-selector-one-resistor (1S1R) three-dimensional (3D) cross-point memory system includes at least one MLC 1S1R structure including a stacked arrangement of a phase change memory (PCM) cell and a threshold switch selector. An electrically conductive bit line is in electrical communication with the OTS selector, and an electrically conductive word line is in electrical communication with the PCM cell. A controller is in electrical communication with the bit line and the word line. The controller is configured to select at least one voltage pulse from a group of different voltage pulses comprising a read pulse, a partial set pulse, a set pulse, a partial reset pulse, and a reset pulse, and configured to deliver the selected at least one voltage pulse to the at least one MLC 1S1R structure.