DISTURB-RESISTANT NON-VOLATILE MEMORY DEVICE USING VIA-FILL AND ETCHBACK TECHNIQUE

摘要

A method of forming a disturb-resistant non volatile memory device includes providing a substrate and forming a first dielectric thereon, forming a first strip of material separated from a second strip of material from a first wiring material, and forming a second dielectric thereon to fill a gap between the first and second strips of material. Openings are formed in the second dielectric exposing portions of the first wiring material. Filing the openings by p+ polysilicon contact material, and then an undoped amorphous silicon material, and then a metal material. A second wiring structure is formed thereon to contact the metal material in the openings. Resistive switching cells are formed from the first wiring structure, the second wiring structure, the contact material, the undoped amorphous silicon material, and the metal material.

主权项

1. A non-volatile memory device structure, comprising:
a substrate having a surface region; a first dielectric material overlying the surface region of the semiconductor substrate; a first cell, the first cell comprising a first wiring structure extending in a first direction overlying the first dielectric material, a second wiring structure extending in a second direction orthogonal to the first direction, a first contact region comprising a p+ polysilicon material, a first switching region comprising an amorphous silicon material disposed in a first via structure in a portion of a second dielectric material and in an intersection region between the first wiring structure and the second wiring structure; and a second cell, the second cell comprising the first wiring structure and a third wiring structure separated from the second wiring structure and parallel to the second wiring structure, a second contact region comprising the p+ polysilicon material, a second switching region comprising the amorphous silicon material disposed in a second via structure in a second portion of the second dielectric material, the first via structure comprising the first switching region being physically and electrically isolate from the second via structure comprising the first switching region; wherein the amorphous silicon material is substantially free of dopants.