Patent ID: 6326264
Filing Date: 2001-12-04
Classification: H01L

Abstract:
A method for manufacturing a semiconductor device in which a silicon oxide layer, a polysilicon film layer, a silicon oxide film layer, and a silicon nitride film layer are formed in sequence onto a semiconductor substrate, said method comprising:a first step of obtaining a multilayer film structure which is formed by the sequential forming, on a semiconductor substrate, of a first silicon oxide film layer, a first polysilicon film layer, a second silicon oxide film layer, and a silicon nitride film layer, in that sequence;a second step of applying a first resist mask to said silicon nitride film layer, and then using said first resist mask to perform etching processing, thereby performing patterning of at least said silicon nitride film layer, said second silicon oxide film layer, and said first polysilicon film layer of said multilayer film structure, so that said multilayer film structure is minimally left in a region that is to be used for the formation, on said substrate, of a channel region and an element separation region, said multilayer film structure being removed in other regions of said substrate;a third step of removing said first resist mask and said first silicon oxide film in said substrate;a fourth step of forming a third silicon oxide film layer on said substrate surface and a side surface of said first polysilicon film layer;a fifth step of implanting an impurity into said substrate via said third silicon oxide film layer that was formed in said fourth step, so as to form a source diffusion layer and a drain diffusion layer;a sixth step of using a fourth silicon oxide film to fill a space that is formed between said opposing source region and drain region;a seventh step of covering said fourth silicon oxide film with a resist film, and then performing etching while patterning said resist film, so as to remove said fourth silicon oxide film that opposes the part of said multilayer film structure in which an element separation part will be formed;an eighth step of removing said resist film, and then further etching said fourth silicon oxide film to remove said silicon nitride film layer, said second silicon oxide film, and said first polysilicon film layer that make up said multilayer film structure existing in part of said substrate in which said element separation part is to be formed, this further etching thereby forming a trench in said substrate part in which said element separation part is to be formed;a ninth step of filling the entire said trench with a fifth silicon oxide film, and then either polishing or etching said fifth silicon oxide film so as to expose said silicon nitride film layer of said multilayer film structure in a region of said substrate surface in which said channel region is to be formed;a tenth step of etching said fifth silicon oxide film and etching said silicon nitride layer and said second silicon oxide film in a region of said multilayer film structure in which said channel region is to be formed, so as to expose said first polysilicon film layer,an eleventh step of forming a second polysilicon film layer on said first polysilicon film layer and said fifth silicon oxide film, and performing prescribed pattering thereof, so as to leave part of said second polysilicon film layer on the surface of said fifth silicon oxide film;a twelfth step of forming an ONO film (silicon oxide film silicon nitride silicon oxide film structure) on said second polysilicon film layer; anda thirteenth step of forming a third polysilicon film layer on said above-noted ONO film.