Low-resistance self-aligned Ti-silicide technology for sub-quarter micron CMOS devices

A low-resistance self-aligned Ti-silicide process featuring selective silicon deposition and subsequent pre-amorphization (SEDAM) is proposed and characterized for sub-quarter micron CMOS devices. 0.15-μm CMOS devices with low-resistance and uniform TiSi₂ on gate and source/drain regions were fabricated using the SEDAM process. Non-doped silicon films were selectively deposited on gate and source/drain regions to reduce suppression of silicidation due to heavily-doped As in the silicon. Silicidation was also enhanced by pre-amorphization, using ion-implantation, on the narrow gate and source/drain regions. Low-resistance and uniform TiSi₂ films were achieved on all narrow, long n⁺ and p⁺ poly-Si and diffusion layers of 0.15-μm CMOS devices. TiSi₂ films with a sheet resistance of 5 to 7 Ω/sq were stably and uniformly formed on 0.15-μm-wide n⁺ and p⁺ poly-Si. No degradation in leakage characteristics was observed in pn-junctions with TiSi₂ films. It was confirmed that, using SEDAM, excellent device characteristics were achieved for 0.15-μm NMOSFET´s and PMOSFET´s with self-aligned TiSi₂ films