论文信息 - CO2 laser‐induced chemical vapor deposition of titanium silicide films

CO2 laser‐induced chemical vapor deposition of titanium silicide films

We have developed a CO2 laser‐induced chemical vapor deposition (CVD) process to deposit films of titanium silicide from a gaseous mixture of SiH4 and TiCl4. Such films are suitable for gate electrodes, interconnects, and contacts on present and future generations of very large scale integrated circuits. Films deposited at a 400 °C substrate temperature are amorphous and have a resistivity of 300 μΩ cm. Annealing at 800 °C converts the films to polycrystalline TiSi2 with a resistivity of 20 μΩ cm. The initial film composition can be varied by changing the SiH4/TiCl4 gas ratio. The CO2 laser induces thermal chemical reactions in the CVD reactor. Observed gas phase reaction products are those predicted by thermodynamics.

Arunava Gupta | K. Beeson | G. West

[1] R. Reif,et al. Low pressure chemical vapor deposition of titanium silicide , 1985 .

[2] R. Rosler,et al. Plasma‐enhanced CVD of titanium silicide , 1984 .

[3] S. Inoue,et al. Properties of Molybdenum Silicide Film Deposited by Chemical Vapor Deposition , 1983 .

[4] K. N. Bhat,et al. Ion-cleaning damage in (100) GaAs, and its effect on schottky diodes , 1983 .

[5] R. P. Anjard,et al. Quality solder poste systems for use in microelectronic applications , 1983 .

[6] D. Adler,et al. A Model for the Laser-Induced Chemical Vapor Deposition of Hydrogenated Amorphous Silicon , 1983 .

[7] S. P. Murarka,et al. Refractory silicides for integrated circuits , 1980 .

[8] J. W. C. Johns,et al. MEASUREMENT AND ANALYSIS OF THE $\nu_{4}$ BAND OF SILANE , 1976 .