Patent ID: 6010925
Filing Date: 2000-01-04
Classification: H01L

Abstract:
A process for making dual-gate CMOSFET on a starting semiconductor substrate, said process comprising:a) forming well and isolation region into said semiconductor substrate, therefore said semiconductor substrate being defined into PMOS and NMOS region;b) forming a thin layer of thermal oxide on the surface of said semiconductor substrate, said thermal oxide layer acting as the PMOS gate oxide;c) forming an overall conformal layer of P type conducting material, the layer of said P type conducting material in the said PMOS region acting as a protecting layer and the gate material of said PMOS;d) removing portions of said P type conducting material and said PMOS gate oxide from said NMOS region with the aid of the first patterned mask, thereby exposing said NMOS region and leaving said PMOS region covered with said P type conducting material;e) forming a thin layer of thermal oxide on the surface of said semiconductor substrate, said thermal oxide layer acting as the NMOS gate oxide on the region of NMOS and the stop layer for the etching process of NMOS gate structure;f) forming an overall conformal layer of N type conducting material, then selectively removing portions of said N type conducting material and said NMOS gate oxide to form the NMOS gate structure, thereby exposing portions of said semiconductor substrate with the aid of second patterned mask;g) ion implanting said exposed semiconductor substrate to form lightly doped regions of NMOS;h) forming a conformal layer of oxide, wherein said oxide layer is then an-isotropically etched to form NMOS gate spacers;i) ion implanting said exposed semiconductor substrate to form heavily doped regions of NMOS;j) forming a conformal layer of protecting dielectric material;k) selectively removing portions of said protecting dielectric material, said NMOS gate oxide and said P type conducting material to form the PMOS gate structure and leave the NMOS region covered with the protecting dielectric layer with the aid of the third patterned mask, thereby exposing portions of PMOS region;l) ion implanting said exposed portions of PMOS region to form lightly doped regions of PMOS;m) forming a conformal layer of oxide, wherein said oxide layer is then an-isotropically etched to form PMOS gate spacers;n) ion implanting said exposed portions of PMOS region to form heavily doped regions of PMOS.