Abstract: A nonvolatile semiconductor memory device includes a semiconductor substrate having a main surface, a floating gate electrode having a doped polycrystalline silicon film formed on the main surface with a thermal oxide film therebetween, and a doped polycrystalline silicon film laid over the doped polycrystalline silicon film and having an upward wall, an insulating film covering the doped polycrystalline silicon film, and a control gate electrode formed on the insulating film.

Abstract: A self aligned method of forming a semiconductor memory array of floating gate memory cells in a semiconductor substrate has a plurality of spaced apart isolation regions on the substrate substantially parallel to one another. An active region is between each pair of adjacent isolation regions. The active and isolation regions are formed in parallel and in the column direction. In the row direction, strips of spaced apart silicon nitride are formed. A source line plug is formed between adjacent pairs of silicon nitride and is in contact with a first region in the active regions, and the isolation regions. The strips of silicon nitride are removed and isotropically etched. In addition, the materials beneath the silicon nitride are also isotropically etched. Polysilicon spacers are then formed in the row direction parallel to the source line plug and adjacent to the floating gates. A second region is formed between adjacent, spaced apart, control gates.

Abstract: In a DRAM adopting a self-aligned contact structure, an opening portion of predetermined size is formed in advance in an insulation film which surrounds an on-field gate electrode formed on an element isolating insulation film. The on-field gate electrode contacts a gate contact through the opening portion. A contact hole for the gate contact can thus be formed in self-alignment as can be the contact holes for a bit-line contact and an active contact. Consequently, the contact hole for the gate contact reaching the on-field gate can be formed simultaneously with the contact holes for the bit-line contact and active contact, thereby greatly reducing the number of manufacturing steps.