Pattern-independent, fine-morphology Ni-Pt silicide formation by partial conversion with low metal-consumption ratio

Pattern-independent, fine-morphology Ni-Pt silicide formation by partial conversion with low metal-consumption ratio

We applied partial conversion as initial silicidation to control the morphologies of Ni-Pt silicide, viz., the thickness, crystal grain, and Pt concentration of the Ni-Pt silicide. This partial conversion kept the thickness of Ni-Pt silicide constant regardless of the device pattern, i.e., by contro...

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Bibliographische Detailangaben
Hauptverfasser: Futase, T, Kamino, T, Hashikawa, N, Inaba, Y, Fujiwara, T, Yamamoto, H, Tanimoto, H
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Annealing
Chemicals
Cleaning
crystal size
diffusion
Logic devices
metal-consumption ratio
Ni-Pt
partial conversion
rapid thermal annealing
resistivity
Silicidation
silicide
Silicides
Silicon
Sputter etching
Sputtering
Tin alloys
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Zusammenfassung:We applied partial conversion as initial silicidation to control the morphologies of Ni-Pt silicide, viz., the thickness, crystal grain, and Pt concentration of the Ni-Pt silicide. This partial conversion kept the thickness of Ni-Pt silicide constant regardless of the device pattern, i.e., by controlling silicidation with thermal diffusion. The key to partially converting Ni-Pt silicide was leaving a thick Ni-Pt alloy on the silicide, viz., a low metal-consumption ratio, at the narrow active line. This process made the crystal grain finer and enriched the Pt of Ni-Pt silicide, thereby suppressing the increase in resistivity in Ni-Pt silicide.
ISSN:1541-7026
1938-1891
DOI:10.1109/IRPS.2010.5488691