Method for producing a floating gate memory structure

摘要

Disclosed are methods for manufacturing floating gate memory devices and the floating gate memory devices thus manufactured. In one embodiment, the method comprises providing a monocrystalline semiconductor substrate, forming a tunnel oxide layer on the substrate, and depositing a protective layer on the tunnel oxide layer to form a stack of the tunnel oxide layer and the protective layer. The method further includes forming at least one opening in the stack, thereby exposing at least one portion of the substrate, and cleaning the at least one exposed portion with a cleaning liquid. The method still further includes loading the substrate comprising the stack into a reactor and, thereafter, performing an in-situ etch to remove the protective layer, using the at least one exposed portion as a source to epitaxially grow a layer comprising the monocrystalline semiconductor material, and forming the layer into at least one columnar floating gate structure.

主权项

1. A method comprising:
providing a substrate comprising a monocrystalline semiconductor, wherein the monocrystalline semiconductor comprises silicon; forming a thermally grown tunnel oxide layer on the substrate, wherein the thermally grown tunnel oxide layer comprises silicon dioxide; depositing a protective layer on the thermally grown tunnel oxide layer, thereby forming a stack of the thermally grown tunnel oxide layer and the protective layer on the substrate, wherein the protective layer comprises polycrystalline silicon; forming at least one opening in the stack, thereby exposing at least one portion of the substrate; cleaning the at least one exposed portion with a cleaning liquid, wherein the protective layer is substantially unaffected by the cleaning liquid; loading the substrate comprising the stack into an epitaxial reactor; thereafter, performing an in-situ etch to remove the protective layer, wherein the etch is selective with respect to the thermally grown tunnel oxide layer; using the at least one exposed portion as a source to epitaxially grow a layer comprising the monocrystalline semiconductor material; and forming the layer comprising the monocrystalline semiconductor material into at least two columnar floating gate structures by:
planarizing the layer comprising the monocrystalline semiconductor material;depositing on the planarized layer a hard mask layer comprising a first dielectric material;depositing on the hard mask layer a resist layer;patterning the resist layer;etching the hard mask layer and the planarized layer according to the patterned resist layer to form the at least two columnar floating gate structures, wherein the hard mask layer is present on the at least two columnar floating gate structures;etching portions of the thermally grown tunnel oxide layer to form trenches between the at least two columnar floating gate structures;filling the trenches with a second dielectric material to form shallow trench isolation regions, wherein at least a portion of the at least two columnar floating gate structures remain exposed; thermally growing an oxide layer on sidewalls of the at least two columnar floating gate structures; and thereafter, depositing a control gate layer between and on top of the at least two columnar floating gate structures.