Integrated circuits and methods for fabricating integrated circuits with gate electrode structure protection

摘要

Integrated circuits and methods for fabricating integrated circuits are provided herein. In an embodiment of a method for fabricating integrated circuits, a P-type gate electrode structure and an N-type gate electrode structure are formed overlying a semiconductor substrate. The gate electrode structures each include a gate electrode that overlies a gate dielectric layer and a nitride cap that overlies the gate electrode. Conductivity determining ions are implanted into the semiconductor substrate using the P-type gate electrode structure and the N-type gate electrode structure as masks to form a source region and a drain region for the P-type gate electrode structure and the N-type gate electrode structure. The nitride cap remains overlying the N-type gate electrode structure during implantation of the conductivity determining ions into the semiconductor substrate to form the source region and the drain region for the N-type gate electrode structure.

主权项

1. A method for fabricating an integrated circuit, wherein the method comprises:
forming a P-type gate electrode structure and an N-type gate electrode structure overlying a semiconductor substrate, wherein the gate electrode structures each comprise a gate electrode overlying a gate dielectric layer and a nitride cap overlying the gate electrode; forming first sidewall spacers comprising a nitride adjacent to the P-type gate electrode structure and the N-type gate electrode structure; etching trenches into the semiconductor substrate adjacent the P-type gate electrode structure and epitaxially growing a semiconductor material within the trenches after forming the first sidewall spacers; forming second sidewall spacers having a different etch rate from the first spacer adjacent to the first sidewall spacers after epitaxially growing the semiconductor material within the trenches; removing the nitride cap from the P-type gate electrode structure, and removing a portion of the first sidewall spacers adjacent to the P-type gate electrode structure; removing the second sidewall spacers adjacent to the P-type gate electrode structure and the N-type gate electrode structure; implanting conductivity determining ions into the semiconductor substrate using using the first sidewall spacers, the P-type gate electrode structure, and the N-type gate electrode structure as masks to form an extension region and/or a halo region for the respective source regions and drain regions of the P-type gate electrode structure and the N-type gate electrode structure, wherein the nitride cap remains overlying the N-type gate electrode structure during implantation of the conductivity determining ions into the semiconductor substrate to form the extension region and/or a halo region for the N-type gate electrode structure; forming third sidewall spacers comprising a nitride adjacent to the first sidewall spacers after forming the extension region and/or the halo region for the respective source regions and drain regions of the P-type gate electrode structure and the N-type gate electrode structure; implanting conductivity determining ions into the semiconductor substrate using the third sidewall spacers as a mask to form deep implants for the respective source regions and drain regions of the P-type gate electrode structure and the N-type gate electrode structure, wherein the nitride cap remains overlying the N-type gate electrode structure during implantation of the conductivity determining ions into the semiconductor substrate to form the deep implants for the N-type gate electrode structure; removing the nitride cap from the N-type gate electrode structure after implanting the conductivity determining ions into the semiconductor substrate to form the deep implants for the N-type gate electrode structure; further comprising removing the third sidewall spacers from adjacent the N-type gate electrode structure, wherein the third sidewall spacers remain in place adjacent to the P-type gate electrode structure.