Various embodiments of the present application are directed towards an integrated circuit comprising a resistive random-access memory (RRAM) cell with recessed bottom electrode sidewalls to mitigate the effect of sidewall plasma damage. In some embodiments, the RRAM cell includes a lower electrode, a data storage element, and an upper electrode. The lower electrode includes a pair of recessed bottom electrode sidewalls respectively on opposite sides of the lower electrode. The data storage element overlies the lower electrode and includes a pair of storage sidewalls. The storage sidewalls are respectively on the opposite sides of the lower electrode, and the recessed bottom electrode sidewalls are laterally spaced from and laterally between the storage sidewalls. The upper electrode overlies the data storage element.

A method of fabricating a three-dimensional semiconductor memory device includes forming a cell stack layer covering key and cell regions of a substrate and including a variable resistance layer and a switching layer, forming key mask patterns on the cell stack layer of the key region and cell mask patterns on the cell stack layer of the cell region, and simultaneously forming a plurality of key patterns on the key region and a plurality of memory cells on the cell region by etching the cell stack layer using the key and cell mask patterns as an etching mask. Each memory cell includes a variable resistance pattern and a switching pattern formed by etching the variable resistance layer and the switching layer. Each key pattern includes a dummy variable resistance pattern and a dummy switching pattern formed by etching the variable resistance layer and the switching layer.

A cross-point memory array and stacked memory array structure. The memory array includes a plurality of first conductive line structures formed in a dielectric material layer; a plurality of memory elements, each memory element including a fill-in phase change memory (PCM) cell, and an access device enabling read or write access to said memory PCM structure; a plurality of second conductive line structures, the plurality of second conductive structures perpendicularly oriented relative to the plurality of first conductive structures. An individual memory element of the plurality of memory elements is conductively connected at a respective intersection between a first conductive line structure and a second conductive line structure. Each phase change memory (PCM) cell of a memory element at an intersection having a sub-lithographic conductive tuning liner disposed on only one sidewall of the PCM cell. The manufacturing maintains a minimal number of masking and processing steps.

A non-volatile memory structure, and methods of manufacture, which may include a first memory element and a second memory element between a first terminal and a second terminal. The first memory element and the second memory element may be in parallel with each other between the first and second terminal. This may enable the hybrid non-volatile memory structure to store values as a combination of the conductance for each memory element, thereby enabling better tuning of set and reset conductance parameters.

A method includes forming a transistor over a substrate; and forming a resistive element over the transistor, in which forming the resistive element includes forming a bottom electrode electrically connected to a source/drain region of the transistor; forming a resistive switching layer over the bottom electrode, in which the resistive switching layer is made of metal halide; and forming a top electrode over the resistive switching layer.

A resistive random access memory includes a bottom electrode, a variable-resistance layer on the bottom electrode and having a U-shaped cross-sectional profile, and a top electrode on the variable-resistance layer and filling a recess in the variable-resistance layer.

The present description concerns a device including phase-change memory cells, each memory cell including a first resistive element in lateral contact with a second element made of a phase-change material.

The present disclosure, in some embodiments, relates to a memory device. The memory device includes a dielectric protection layer having sidewalls defining an opening over a conductive interconnect within an inter-level dielectric (ILD) layer. A bottom electrode structure extends from within the opening to directly over the dielectric protection layer. A variable resistance layer is over the bottom electrode structure and a top electrode is over the variable resistance layer. A top electrode via is disposed on the top electrode and directly over the dielectric protection layer.

A variable resistance memory device is provided including a plurality of lower electrodes disposed on a substrate. A plurality of variable resistors are disposed on the plurality of lower electrodes. A plurality of upper electrodes are disposed on the plurality of variable resistors. An interlayer insulating layer fills a space in the plurality of variable resistors. An anti-oxidation layer is disposed between the plurality of variable resistors and the interlayer insulating layer. The anti-oxidation layer covers side surfaces of the plurality of variable resistors, and the anti-oxidation layer comprises silicon and/or carbon.

Various embodiments of the present disclosure are directed towards a method for forming a memory cell. In some embodiments, a memory film is deposited over a substrate and comprises a bottom electrode layer, a top electrode layer, and a data storage film between the top and bottom electrode layers. A hard mask film is deposited over the memory film and comprises a conductive hard mask layer. The top electrode layer and the hard mask film are patterned to respectively form a top electrode and a hard mask over the top electrode. A trimming process is performed to decrease a sidewall angle between a sidewall of the hard mask and a bottom surface of the hard mask. An etch is performed into the data storage film with the hard mask in place after the trimming process to form a data storage structure underlying the top electrode.