A PCM cell includes a first electrode, a heater/PCM portion electrically connected to first electrode, the heater/PCM portion comprising a PCM material, a second electrode electrically connected to the PCM material, and an electrical insulator stack surrounding the projection liner. The stack includes a plurality of first layers comprised of a first material and having a plurality of first inner sides facing towards the projection liner, and a plurality of second layers alternating with the plurality of first layers, the plurality of second layers comprised of a second material that is different from the first material, and the second plurality of layers having a plurality of second inner sides facing towards the projection liner. The plurality of second inner sides that are offset from the plurality of first inner sides forming a plurality of gaps.

A memory device is provided with a support and several superimposed levels of resistive memory cells formed on the support, each level having one or more rows of one or more resistive memory cell(s), each resistive memory cell having a variable resistance memory element formed by an area of variable resistivity material arranged between a first electrode and a second electrode. The memory element is connected to a source region or drain region of a control transistor, the control transistor being formed in a given semiconductor layer of a stack of semiconductor layers formed on the support and wherein respective channel regions of respective control transistors of resist memory cells are arranged.

A memory device including a plurality of first conductive lines arranged on a substrate and spaced apart from each other in a first direction parallel to a top surface of the substrate; a plurality of capping liners on sidewalls of each of the plurality of first conductive lines, the plurality of capping liners having top surfaces at a vertical level equal to top surfaces of the plurality of first conductive lines, and bottom surfaces at a vertical level higher than bottom surfaces of the plurality of first conductive lines; and an insulating layer on the substrate, the insulating layer filling spaces between the plurality of first conductive lines and covering sidewalls of the plurality of capping liners.

A phase-change memory cell, comprising: a substrate housing a transistor, for selection of the memory cell, that includes a first conduction electrode; a first electrical-insulation layer on the selection transistor; a first conductive through via through the electrical-insulation layer electrically coupled to the first conduction electrode; a heater element including a first portion in electrical contact with the first conductive through via and a second portion that extends in electrical continuity with, and orthogonal to, the first portion; a first protection element extending on the first and second portions of the heater element; a second protection element extending in direct lateral contact with the first portion of the heater element and with the first protection element; and a phase-change region extending over the heater element in electrical and thermal contact therewith.

A phase change memory (PCM) cell includes a first electrode comprised of a first electrically conductive material, a second electrode comprised of a second electrically conductive material, and a phase change section positioned between the first electrode and the second electrode. The phase change section includes a first phase change material having a first resistance drift coefficient, and a second phase change material having a second resistance drift coefficient that is greater than the first resistance drift coefficient. An axis of the PCM cell extends between the first electrode and the second electrode, and the second phase change material is offset from the first phase change material in a direction that is perpendicular to the axis.

The present invention discloses a memory cell that includes at least two non-volatile resistive memory elements coupled in parallel. The non-volatile resistive memory elements are capable of existing in different resistive states such that each of the different resistive state represents a different data state. The non-volatile resistive memory elements may include multiple layers formed within contact holes.

A phase change memory (PCM) cell comprising a substrate a first electrode located on the substrate. A phase change material layer located adjacent to the first electrode, wherein a first side of the phase change material layer is in direct contact with the first electrode. A second electrode located adjacent to phase change material layer, wherein the second electrode is in direct contact with a second side of the phase change material layer, wherein the first side and the second side are different sides of the phase change material layer. An airgap is located directly above the phase change material layer, wherein the airgap provides space for the phase change material to expand or restrict.

A nonvolatile memory device group includes: (A) a first insulating layer; (B) a second insulating layer that has a first concavity and a second concavity communicating with the first concavity and having a width larger than that of the first concavity and that is disposed on the first insulating layer; (C) a plurality of electrodes that are disposed in the first insulating layer and the top surface of which is exposed from the bottom surface of the first concavity; (D) an information storage layer that is formed on the side walls and the bottom surfaces of the first concavity and the second concavity; and (E) a conductive material layer that is filled in a space surrounded with the information storage layer in the second concavity.

A phase change memory structure including a bottom electrode; a top electrode; a first phase change material between the bottom electrode and the top electrode; a first dielectric surrounding the first phase change material; a second dielectric surrounding the top electrode, the second dielectric having selective adhesion to a metal as compared to the first phase change material; a first metal feature contacting the bottom electrode; and a second metal feature contacting the top electrode.

A semiconductor structure comprises a conductive bridge random access memory device and an access device connected in series with the conductive bridge random access memory device. The conductive bridge random access memory device and the access device are arranged in a vertical stack. The vertical stack has a sidewall profile that increases in width from a bottom surface of the vertical stack to a top surface of the vertical stack.