A resistive random access memory includes a lower electrode, an upper electrode and a resistive layer between the lower electrode and the upper electrode, wherein the resistive layer includes a constant-resistance portion and a variable-resistance portion surrounding the constant-resistance portion.

A resistive memory device includes a first electrode, a sidewall spacer electrode located on a sidewall of a dielectric material contacting the first electrode, a resistive memory cell containing a resistive memory material and contacting the sidewall spacer electrode, and a second electrode containing the resistive memory cell.

A method for producing a memory device includes depositing a second interlayer insulating film on a substrate, forming contact holes, and depositing a second metal and a nitride film. The second metal and the nitride film are removed to form pillar-shaped nitride layers, and to form lower electrodes surrounding the pillar-shaped nitride layers. The second interlayer insulating film is etched back to expose upper portions of the lower electrodes. The upper portions of the lower electrodes surrounding the pillar-shaped nitride film are removed and a phase change film is deposited to surround the pillar-shaped nitride film and connect with the lower electrodes. The phase change film is etched on upper portions of the pillar-shaped nitride film, and a reset gate insulating film is formed surrounding the phase change film and forming a reset gate having a side wall shape and remaining on the upper portions of the pillar-shaped nitride film.

An electronic device includes a semiconductor memory that includes: a first conductive pattern disposed over a substrate; a first selection element layer disposed over the first conductive pattern and having one or more first grooves therein, the first grooves overlapping the first conductive pattern; a first variable resistance layer whose sidewalls and bottom are surrounded by the first selection element layer, the first variable resistance layer being buried in the first groove; and a second conductive pattern that overlaps the first variable resistance layer and is disposed over the first variable resistance layer

A phase change storage device, Integrated Circuit (IC) chip including the devices and method of manufacturing IC chips with the devices. The device includes a phase change storage region with multiple phase change regions, e.g., two (2), of different phase change material serially-connected between said program/read line and a select device conduction terminal.

The present disclosure relates to an integrated circuit device having an RRAM cell, and an associated method of formation. In some embodiments, the integrated circuit device has a bottom electrode disposed over a lower metal interconnect layer. The integrated circuit device also has a resistance switching layer with a variable resistance located on the bottom electrode, and a top electrode located over the resistance switching layer. The integrated circuit device also has a self-sputtering spacer having a lateral portion that surrounds the bottom electrode at a position that is vertically disposed between the resistance switching layer and a bottom etch stop layer and a vertical portion abutting sidewalls of the resistance switching layer and the top electrode. The integrated circuit device also has a top etch stop layer located over the bottom etch stop layer abutting sidewalls of the self-sputtering spacer and overlying the top electrode.

A variable resistance memory device includes a pattern of one or more first conductive lines, a pattern of one or more second conductive lines, and a memory structure between the first and second conductive lines. The pattern of first conductive lines extends in a first direction on a substrate, and the first conductive lines extend in a second direction crossing the first direction. The pattern of second conductive lines extends in the second direction on the first conductive lines, and the second conductive lines extend in the first direction. The memory structure vertically overlaps a first conductive line and a second conductive line. The memory structure includes an electrode structure, an insulation pattern on a central upper surface of the electrode structure, and a variable resistance pattern on an edge upper surface of the electrode structure. The variable resistance pattern at least partially covers a sidewall of the insulation pattern.

Some embodiments relate to an integrated circuit device. The integrated circuit device includes a resistive random access memory (RRAM) cell, which includes a top electrode and a bottom electrode that are separated by a RRAM dielectric layer. The top electrode of the RRAM cell has a recess in its upper surface. A via is disposed over the RRAM cell and contacts the top electrode within the recess.

A variable resistance memory device includes a variable resistance layer and a first conductive element and a second conductive element which are spaced apart from each other on the variable resistance layer. The variable resistance layer may include a first layer and a second layer on the first layer. The first layer includes a ternary or more metal oxide containing two or more metal materials having different valences. The second layer may include silicon oxide. The variable resistance memory device may have a wide range of resistance variation due to the metal oxide in which oxygen vacancies are easily formed. The first conductive element and the second conductive element, in response to an applied voltage, may be configured to form a current path in a direction perpendicular to a direction in which the first layer and the second direction are stacked.

A resistive random access memory cell includes a gate all around transistor and a resistor device. The resistor device includes a first electrode including a plurality of conductive nanosheets. The resistor device includes a high-K resistive element surrounds the conductive nanosheets. The resistor device includes a second electrode separated from the conductive nanosheets by the resistive element.