Patent ID: 7189605
Filing Date: 2007-03-13
Classification: H01L

Abstract:
1. A method for fabricating a semiconductor device, comprising the steps of: (a) forming a device isolation film in a semiconductor substrate to define an active region; (b) forming a first oxide film on the active region; (c) sequentially forming a first nitride film, a planarized second oxide film and a second nitride film on an entire surface; (d) etching the second nitride film and the second oxide film where a gate region is to be formed, to expose the first nitride film; (e) forming a mask pattern having a window at least exposing an island type recess gate region in the cell region, wherein the window is respectively larger than line widths of the gate region and the active region to expose the first nitride film on the active region of the gate region in the cell region and a predetermined portion of the active region and the device isolation film adjacent thereto; (f) removing the exposed first nitride film and the first oxide film etched using the mask pattern; (g) etching a predetermined thickness of the semiconductor substrate and the device isolation film exposed via removing the first oxide film to form a recessed gate region; (h) forming a gate insulating film on the exposed semiconductor substrate; (i) forming a conductive layer for lower gate electrode on an entire surface, and then etching the conductive layer for lower gate electrode until the device isolation film is exposed to form a first lower gate electrode at least filling up the recessed gate region; (j) forming a second lower gate electrode on the surface of the gate region and a third nitride film filling up the gate region; (k) removing the second oxide film, the first nitride film and the first oxide film, and then forming a third nitride film on an entire surface; (l) forming an LDD region in the semiconductor substrate at both sides of the first lower gate electrode; (m) forming a fourth nitride film and a fourth oxide film on an entire surface, and then etching only the fourth oxide film and the fourth nitride film in the peripheral circuit region to form a spacer on a sidewall of the second lower gate electrode in the peripheral circuit region and forming S/D regions on the semiconductor substrate at both sides of the spacer; (n) removing the fourth oxide film in the cell region, and then forming a fifth nitride film and a first interlayer insulating film on an entire surface and performing the CMP process to expose the third nitride film; (o) etching a predetermined region of the first interlayer insulating film, the fifth nitride film, the fourth nitride film and the third oxide film on the S/D regions in the cell region to expose the semiconductor substrate and forming the S/D regions in the exposed semiconductor substrate; (p) forming a stacked structure of a contact plug and a fifth oxide film on the S/D regions; (q) removing the third nitride film and etching a predetermined thickness of the third oxide film and the fifth oxide film; (r) sequentially forming a third lower gate electrode and a gate barrier layer on the second lower gate electrode, and then forming an upper gate electrode filling up the gate region to form a gate structure; (s) etching a predetermined thickness of the gate structure; (t) removing the exposed portion of the third oxide film, the fourth nitride film, the fifth nitride film and the fifth oxide film via an etching process; and (u) forming an upper insulating film on an entire surface, and then performing the CMP process to expose the contact plug.