Formation Of Silicide Contacts In Semiconductor Devices

Methods of forming silicide contacts in semiconductor devices are presented. An exemplary method comprises providing a semiconductor substrate having an n-type field effect transistor (nFET) region and a p-type field effect transistor (pFET) region; performing a pre-amorphized implantation (PAI) pro...

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Hauptverfasser:	TSAI YAN-MING, CHEN FANGNG, LIN WEI-JUNG, WU CHII-MING
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Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
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creator	TSAI YAN-MING CHEN FANGNG LIN WEI-JUNG WU CHII-MING
description	Methods of forming silicide contacts in semiconductor devices are presented. An exemplary method comprises providing a semiconductor substrate having an n-type field effect transistor (nFET) region and a p-type field effect transistor (pFET) region; performing a pre-amorphized implantation (PAI) process to an n-type doped silicon (Si) feature in on the nFET region and a p-type doped silicon germanium (SiGe) feature in the pFET region, thereby forming an n-type amorphous silicon (a-Si) feature and a p-type amorphous silicon germanium (a-SiGe) feature; depositing a metal layer over each of the a-Si and a-SiGe features; performing an annealing process on the semiconductor device with a temperature ramp-up rate tuned according to a silicide growth rate difference between the n-type a-Si and the p-type a-SiGe features. During the annealing process the n-type a-Si and the p-type a-SiGe features are completely consumed, and amorphous silicide features are formed in the nFET and pFET regions.
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An exemplary method comprises providing a semiconductor substrate having an n-type field effect transistor (nFET) region and a p-type field effect transistor (pFET) region; performing a pre-amorphized implantation (PAI) process to an n-type doped silicon (Si) feature in on the nFET region and a p-type doped silicon germanium (SiGe) feature in the pFET region, thereby forming an n-type amorphous silicon (a-Si) feature and a p-type amorphous silicon germanium (a-SiGe) feature; depositing a metal layer over each of the a-Si and a-SiGe features; performing an annealing process on the semiconductor device with a temperature ramp-up rate tuned according to a silicide growth rate difference between the n-type a-Si and the p-type a-SiGe features. 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An exemplary method comprises providing a semiconductor substrate having an n-type field effect transistor (nFET) region and a p-type field effect transistor (pFET) region; performing a pre-amorphized implantation (PAI) process to an n-type doped silicon (Si) feature in on the nFET region and a p-type doped silicon germanium (SiGe) feature in the pFET region, thereby forming an n-type amorphous silicon (a-Si) feature and a p-type amorphous silicon germanium (a-SiGe) feature; depositing a metal layer over each of the a-Si and a-SiGe features; performing an annealing process on the semiconductor device with a temperature ramp-up rate tuned according to a silicide growth rate difference between the n-type a-Si and the p-type a-SiGe features. During the annealing process the n-type a-Si and the p-type a-SiGe features are completely consumed, and amorphous silicide features are formed in the nFET and pFET regions.</abstract><oa>free_for_read</oa></addata></record>
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title	Formation Of Silicide Contacts In Semiconductor Devices
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