INTEGRATION SCHEME FOR STRAINED SOURCE/DRAIN CMOS USING OXIDE HARD MASK
First Claim
1. A method for forming a semiconductor integrated circuit device comprising:
- providing a semiconductor substrate including a first well region and a second well region;
forming a dielectric layer overlying the semiconductor substrate including the first well region and the second well region;
forming a polysilicon gate layer overlying the dielectric layer, the polysilicon gate layer being overlying a first channel region in the first well region and a second channel region in the second well region in the semiconductor substrate;
forming a hard mask overlying the polysilicon gate layer;
patterning the polysilicon gate layer, including the hard mask layer, to form a first gate structure including first edges in the first well region and a second gate structure including second edges in the second well region;
forming a liner layer overlying the first gate structure and the second gate structure and overlying a first source region and a first drain region in the first well region and a second source region and a second drain region in the second well region;
forming a spacer dielectric layer overlying the liner layer, the spacer dielectric layer including a first portion overlying the first gate structure and a second portion overlying the second gate structure;
protecting the second gate structure, including the second source and drain regions, and the second portion of the spacer dielectric layer provided in the second well region using a second photoresist mask material;
patterning the first portion of the spacer dielectric layer to form first sidewall spacer structures on the first gate structure, including the first edges while the second photoresist mask material protects the second portion of the spacer dielectric layer and the second gate structure, including the second source and drain regions in the second well region;
etching a first source region and a first drain region adjacent to the first gate structure using the hard mask layer and the first sidewall spacers as a protective layer;
depositing a silicon germanium fill material into the first source region and the first drain region to fill the etched first source region and the etched first drain region while causing the first channel region between the first source region and the first drain region to be strained in compressive mode from at least the silicon germanium material formed in the first source region and the first drain region;
removing the second photoresist masking material;
protecting the first gate structure, including first source/drain regions, and the first portion of the spacer dielectric layer provided in the first well region using a first photoresist mask material;
patterning the second portion of the spacer dielectric layer to form second sidewall spacer structures on the second gate structure, including the second edges while the first photoresist mask material protects the first gate structure, including the first source/drain regions in the first well region;
etching a second source region and a second drain region adjacent to the second gate structure using the hard mask layer and the second sidewall spacers as a protective layer;
depositing a silicon carbide fill material into the second source region and the second drain region to fill the etched second source region and the etched second drain region while causing the second channel region between the second source region and the second drain region to be strained in tensile mode from at least the silicon carbide material formed in the second source region and the second drain region; and
removing the first photoresist masking material.
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Abstract
A method for forming a semiconductor integrated circuit device, e.g., CMOS, includes providing a semiconductor substrate having a first well region and a second well region. The method further includes forming a dielectric layer overlying the semiconductor substrate, the first well region and the second well region, and forming a polysilicon gate layer (e.g., doped polysilicon) overlying the dielectric layer. The polysilicon gate layer is overlying a first channel region in the first well region and a second channel region in the second well region. The method includes forming a hard mask (e.g., silicon dioxide) overlying the polysilicon gate layer and patterning the polysilicon gate layer and the hard mask layer to form a first gate structure including first edges in the first well region and a second gate structure including second edges in the second well region. Next, the method separately forms strained regions in the first and second well regions.
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Citations
15 Claims
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1. A method for forming a semiconductor integrated circuit device comprising:
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providing a semiconductor substrate including a first well region and a second well region; forming a dielectric layer overlying the semiconductor substrate including the first well region and the second well region; forming a polysilicon gate layer overlying the dielectric layer, the polysilicon gate layer being overlying a first channel region in the first well region and a second channel region in the second well region in the semiconductor substrate; forming a hard mask overlying the polysilicon gate layer; patterning the polysilicon gate layer, including the hard mask layer, to form a first gate structure including first edges in the first well region and a second gate structure including second edges in the second well region; forming a liner layer overlying the first gate structure and the second gate structure and overlying a first source region and a first drain region in the first well region and a second source region and a second drain region in the second well region; forming a spacer dielectric layer overlying the liner layer, the spacer dielectric layer including a first portion overlying the first gate structure and a second portion overlying the second gate structure; protecting the second gate structure, including the second source and drain regions, and the second portion of the spacer dielectric layer provided in the second well region using a second photoresist mask material; patterning the first portion of the spacer dielectric layer to form first sidewall spacer structures on the first gate structure, including the first edges while the second photoresist mask material protects the second portion of the spacer dielectric layer and the second gate structure, including the second source and drain regions in the second well region; etching a first source region and a first drain region adjacent to the first gate structure using the hard mask layer and the first sidewall spacers as a protective layer; depositing a silicon germanium fill material into the first source region and the first drain region to fill the etched first source region and the etched first drain region while causing the first channel region between the first source region and the first drain region to be strained in compressive mode from at least the silicon germanium material formed in the first source region and the first drain region; removing the second photoresist masking material; protecting the first gate structure, including first source/drain regions, and the first portion of the spacer dielectric layer provided in the first well region using a first photoresist mask material; patterning the second portion of the spacer dielectric layer to form second sidewall spacer structures on the second gate structure, including the second edges while the first photoresist mask material protects the first gate structure, including the first source/drain regions in the first well region; etching a second source region and a second drain region adjacent to the second gate structure using the hard mask layer and the second sidewall spacers as a protective layer; depositing a silicon carbide fill material into the second source region and the second drain region to fill the etched second source region and the etched second drain region while causing the second channel region between the second source region and the second drain region to be strained in tensile mode from at least the silicon carbide material formed in the second source region and the second drain region; and removing the first photoresist masking material. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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Specification