Silicide MOSFET architecture and method of manufacture
First Claim
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1. A method of forming a transistor, comprising:
- forming a gate structure having lateral edges associated therewith over a semiconductor substrate by patterning a gate material using a mask structure overlying a top portion thereof;
forming first sidewall spacers on the lateral edges of the gate structure;
forming extension regions in the semiconductor substrate that are self-aligned with respect to the gate structure;
forming a first silicide on the extension regions, wherein the first silicide does not form on the gate structure due to the mask structure residing thereon;
forming second sidewall spacers on the lateral edges of the gate structure and covering the first sidewall spacers;
forming a source region and a drain region under the extension regions, respectively, the source and drain regions being formed via implantation through the first silicide on the extension regions; and
forming a second silicide on the first silicide and on a top portion of the gate structure after forming the source and drain regions.
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Abstract
The present invention relates to a method of forming a transistor and a transistor structure. The invention comprises forming the transistor using a double silicide process which reduces resistance and reduces the floating-body-effect when employed in conjunction with SOI type device architecture.
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Citations
16 Claims
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1. A method of forming a transistor, comprising:
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forming a gate structure having lateral edges associated therewith over a semiconductor substrate by patterning a gate material using a mask structure overlying a top portion thereof;
forming first sidewall spacers on the lateral edges of the gate structure;
forming extension regions in the semiconductor substrate that are self-aligned with respect to the gate structure;
forming a first silicide on the extension regions, wherein the first silicide does not form on the gate structure due to the mask structure residing thereon;
forming second sidewall spacers on the lateral edges of the gate structure and covering the first sidewall spacers;
forming a source region and a drain region under the extension regions, respectively, the source and drain regions being formed via implantation through the first silicide on the extension regions; and
forming a second silicide on the first silicide and on a top portion of the gate structure after forming the source and drain regions. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
depositing one of a titanium and a tungsten layer over the semiconductor substrate having the gate structure and first sidewall spacers; and
performing thermal processing, wherein the titanium or tungsten reacts with the source and drain regions to form a titanium silicide or a tungsten silicide thereat, respectively.
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6. The method of claim 1, wherein forming the second silicide comprises:
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depositing a metal layer over the semiconductor substrate having the gate structure and first and second spacers thereon; and
performing thermal processing, wherein the metal reacts with the first suicide over the extension regions in regions not covered by the second spacers and on the top portion of the gate structure.
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7. The method of claim 6, wherein the second silicide comprises, tungsten silicide.
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8. The method of claim 1, further comprising forming an insulating layer in the semiconductor substrate, thereby defining a bottom portion of the semiconductor substrate below the insulating layer, and a top portion of the semiconductor substrate thereabove, and wherein the extension regions and source and drain regions are formed in the top portion of the semiconductor substrate, thereby forming a silicon-over-insulator (SOI) transistor.
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9. A method of forming a transistor, comprising:
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forming a gate structure having lateral edges associated therewith over a semiconductor substrate by patterning a gate material using a mask structure overlying a top portion thereof;
forming first sidewall spacers on the lateral edges of the gate structure;
forming source and drain regions in the semiconductor substrate that are self-aligned with respect to the gate structure with an extension region implant;
forming a first silicide on the source and drain regions, wherein the first silicide does not form on the gate structure due to the mask structure residing thereon;
forming second sidewall spacers on the lateral edges of the gate structure and covering the first sidewall spacers; and
forming a second silicide on the first silicide and on a top portion of the gate structure after forming the source and drain regions. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
depositing one of a titanium and a tungsten layer over the semiconductor substrate having the gate structure and first sidewall spacers; and
performing thermal processing, wherein the titanium or tungsten reacts with the source and drain regions to form a titanium silicide or a tungsten silicide thereat, respectively.
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14. The method of claim 9, wherein forming the second silicide comprises:
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depositing a metal layer over the semiconductor substrate having the gate structure and first and second spacers thereon; and
performing thermal processing, wherein the metal reacts with the first silicide over the source and drain regions in regions not covered by the second spacers and on the top portion of the gate structure.
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15. The method of claim 14, wherein the second silicide comprises tungsten silicide.
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16. The method of claim 9, further comprising forming an insulating layer in the semiconductor substrate, thereby defining a bottom portion of the semiconductor substrate below the insulating layer, and a top portion of the semiconductor substrate thereabove, and wherein the extension regions and source and drain regions are formed in the top portion of the semiconductor substrate, thereby forming a silicon-over-insulator (SOI) transistor.
Specification