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Y Toivola, J Thurn, RF Cook, G Cibuzar, K Roberts

Influence of deposition conditions on mechanical properties of low-pressure chemical vapor deposited low-stress silicon nitride films

Journal of Applied Physics 94 (2003) 6915-6922

The effect of deposition temperature, deposition pressure, or input gas ratio (SiH2Cl2:NH3) on film stress was determined for low-pressure chemical vapor deposited silicon nitride films. Wafer curvature measurements were performed for films deposited on single crystal silicon and amorphous silica wafer substrates to determine film stress sigma(dep), biaxial modulus E-f(+), and coefficient of thermal expansion alpha(f). Apparent plane strain film modulus (E) over bar (')(f) and hardness H were measured using depth-sensing indentation. Ellipsometry was used to measure film thickness t(f) and refractive index n. Infrared spectroscopy, x-ray photoelectron spectroscopy (XPS), forward recoil energy spectroscopy (FReS), and Rutherford backscattering spectroscopy (RBS) experiments were performed to determine film composition. Although film deposition stress varied from -135 MPa (compressive) to 235 MPa (tensile) E-f(+), (E) over bar (')(f), H, and alpha(f) remained nearly constant. Infrared spectroscopy resolved only Si-N species for all films, and results from FReS on three films confirmed that the hydrogen content was negligible. RBS and XPS indicated that Si/N increased with increased compressive sigma(dep). Ellipsometry and RBS indicated that all films were silicon-rich, to a greater extent with increased compressive sigma(dep). As RBS indicated that atomic density decreased with increased compressive deposition stress, it was concluded that the deposition conditions changed both thermal and intrinsic deposition stress for all films. In particular, intrinsic stress was tensile, and became increasingly tensile for increased Si/N and decreased atomic density. Assuming thermal stress was similar for all films examined here, the intrinsic stress must have varied from changes dependent on the deposition conditions. (C) 2003 American Institute of Physics.

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