Structures for a resistive memory element and methods of forming a structure for a resistive memory element. A resistive memory element has a first electrode, a second electrode partially embedded in the first electrode, a third electrode, and a switching layer positioned between the first electrode and the third electrode. The second electrode includes a tip positioned in the first electrode adjacent to the switching layer and a sidewall that tapers to the tip.

Disclosed are a self-healing memory device including a lower electrode; a polymer nanocomposite layer formed on the lower electrode, wherein, when a structural defect occurs, the polymer nanocomposite layer repairs the structural defect and restores a memory function damaged due to the structural defect through a self-healing mechanism characterized by movement of a polymer material and hydrogen bonding; and an upper electrode formed on the polymer nanocomposite layer and a method of manufacturing the self-healing memory device.

A phase change memory (PCM) structure including a bottom electrode, a first dielectric spacer disposed above and in contact with the bottom electrode, the first dielectric spacer comprising a vertical seam, a PCM layer disposed above the first dielectric spacer, and a heater element disposed in the seam and in contact with the bottom electrode.

A semiconductor device including at least one memory cell is provided. The memory cell includes: a first electrode layer; a second electrode layer; a selection element layer coupled between the first electrode layer and the second electrode layer; and an insulating layer coupled between the first electrode layer and the second electrode such that a side surface of the insulating layer is in contact with a side surface of the selection element layer, wherein the selection element layer includes an insulating material doped with a first element, and wherein the insulating layer includes the insulating material doped with the first element at a lower concentration than the selection element layer, or the insulating material not doped with the first element.

A semiconductor device that includes: first conductive lines; second conductive lines disposed over the first lines to be spaced apart from the first lines; and a selector layer disposed between the first lines and the second lines and including a dielectric material and a dopant doped with a uniform dopant profile.

A nonvolatile memory device includes a resistance switching layer, a gate on the resistance switching layer, a gate oxide layer between the resistance switching layer and the gate, and a source and a drain, spaced apart from each other, on the resistance switching layer. A resistance value of the resistance switching layer is changed based on an illumination of light irradiated onto the resistance switching layer and is maintained as a changed resistance value.

A resistance variable device of an embodiment includes a stack arranged between a first electrode and a second electrode and including a resistance variable layer and a chalcogen-containing layer. The chalcogen-containing layer contains a material having a composition represented by a general formula: C1.sub.xC2.sub.yA.sub.z, where C1 is at least one element selected from Sc, Y, Zr, and Hf, C2 is at least one element selected from C, Si, Ge, B, Al, Ga, and In, A is at least one element selected from S, Se, and Te, and x, y, and z are numbers representing atomic ratios satisfying 0<x<1, 0<y<1, 0<z<1, and x+y+z=1, and when an oxidation number of the element C1 is set to a, and an oxidation number of the element C2 is set to b, the atomic ratio x of the element C1 satisfies x≤(3−(3+b)×y−z)/(3+a).

A memory device may be provided, including a substrate; one or more bottom electrodes arranged over the substrate; one or more switching layers arranged over the one or more bottom electrodes; and a plurality of top electrodes arranged over the one or more switching layers. Each of the one or more bottom electrodes may include at least one corner tip facing the switching layer, and an angle of each of the at least one corner tip may be less than ninety degrees.

A selector includes a first electrode, a second electrode, and a selector layer provided between the first electrode and the second electrode and contains Si.sub.xTe.sub.yN.sub.z. The x, y, and z of the Si.sub.xTe.sub.yN.sub.z satisfy 0<x≤35, 15≤y≤50, and 50<z≤85, satisfy 0<x≤45, 15≤y≤55, and 40<z≤85, or satisfy 0<x≤55, 15≤y≤65, and 30<z≤85.

A selector includes a first electrode, a second electrode, and a selector layer provided between the first electrode and the second electrode and contains Si.sub.xTe.sub.yN.sub.z. The x, y, and z of the Si.sub.xTe.sub.yN.sub.z satisfy 0<x≤35, 15≤y≤50, and 50<z≤85, satisfy 0<x≤45, 15≤y≤55, and 40<z≤85, or satisfy 0<x≤55, 15≤y≤65, and 30<z≤85.