Patent ID: 8119528
Filing Date: 2012-02-21
Classification: H01L,Y10S

Abstract:
1. A process for preparing a phase change memory device having a nanowire contact comprising: obtaining a middle-of-the-line semiconductor device comprising a silicon wafer having at least one active region; forming a silicon oxide base layer on the device, the base layer comprising at least one bottom electrode embedded in the base layer; forming a silicon oxide layer on the base layer; forming a thin silicon nitride layer on the silicon oxide layer to obtain a laminated middle-of-the-line semiconductor device; depositing an organic polymeric photoresist material over the laminated semiconductor device; patterning a lithographic feature on the laminated device; constructing an overhang-type pore directly over the at least one embedded bottom electrode, the pore extending to the bottom electrode, the overhang consisting essentially of silicon nitride, wherein the overhang-type pore has a diameter of about 20 nm. to about 60 nm., and wherein the overhang has a length of about 1 nm. to about 5 nm.; depositing a layer comprising a catalytic material over the lithographic feature, wherein the catalytic material is a member selected from the group consisting of gold, nickel, iron and palladium, whereby the sidewalls of the pore are not coated with the catalytic material because of the overhang, the overhang acting as a shadow mask; conducting a first chemical and mechanical polishing (CMP) process, whereby the photoresist material is substantially completely stripped from the laminated semiconductor device, and whereby the catalytic material is removed from the laminated semiconductor device in substantially all areas EXCEPT the bottom of the pore, wherein a thin layer of catalytic material remains on the bottom of the pore, wherein the layer of catalytic material has a thickness of about 1.5 nm. to about 2.5 nm.; thermally annealing the layer of catalytic material at a temperature which is at least at the melting point of the catalytic material to obtain a substantially spherical ball of catalytic material; growing a nanowire by employing the ball of catalytic material, wherein the nanowire is a member selected from the group consisting of a silicon nanowire, a germanium nanowire, a doped silicon nanowire and a doped germanium nanowire; depositing a spacer layer over the nanowire, wherein the spacer layer is a member selected from the group consisting of a metal layer and an insulating layer; removing the spacer layer from substantially all areas except the area directly over the nanowire; depositing a layer of dielectric material over the lithographic feature; conducting a second chemical and mechanical polishing (CMP) process, wherein the dielectric layer and the catalyst material are removed from the top of the nanowire, whereby the top of the nanowire is exposed and the bottom of the nanowire is in contact with the bottom electrode; depositing a layer of phase change material over the lithographic feature, whereby the phase change material is in contact with the top of the nanowire; and constructing a top electrode over the layer of phase change material to obtain the phase change memory device having the nanowire contact.