Effect of phosphorus doping on stress in silicon and polycrystalline silicon

An investigation of the polysilicon stress properties as a function of film thicknesses and phosphorus doping showed that as‐deposited films are moderately compressive, and become less compressive with increasing film thickness. High temperature PBr3 diffusion in silicon produces wafer bending corresponding to a tensile stress in wafer. Following a PBr3 diffusion, polysilicon films, however, become less compressive. Subsequent oxidation introduces an additional compressive stress component of the order of 2−3×109 dyne/cm2 for oxidation temperatures between ∼900−1000 °C. The thermal expansion coefficients were similar for doped and undoped films (α∼2.9 ppm/°C) and slightly less than for 〈100〉 silicon, while the doped films were found to be less stiff than undoped ones but both were less stiff than 〈100〉 silicon. The observed changes in polysilicon stress due to film thickness and phosphorus doping have been interpreted in terms of a grain growth model wherein those factors which lead to enhanced grain grow...

[1]  W. Shockley,et al.  Metal Precipitates in Silicon p‐n Junctions , 1960 .

[2]  P. J. Burkhardt,et al.  Thermal Expansion of Sputtered Silicon Nitride Films , 1969 .

[3]  J. R. Patel,et al.  X‐ray diffraction topographs of silicon crystals with superposed oxide film. II. Pendellösung fringes: comparison of experiment with theory , 1973 .

[4]  W. Brantley Calculated elastic constants for stress problems associated with semiconductor devices , 1973 .

[5]  P. Petroff,et al.  Elimination of Oxidation‐Induced Stacking Faults by Preoxidation Gettering of Silicon Wafers I . Phosphorus Diffusion‐Induced Misfit Dislocations , 1975 .

[6]  A Study of the Phosphorus Gettering of Gold in Silicon by Use of Neutron Activation Analysis , 1976 .

[7]  E. P. EerNisse,et al.  Viscous flow of thermal SiO2 , 1977 .

[8]  Hyman Joseph Levinstein,et al.  Thermal stresses and cracking resistance of dielectric films (SiN, Si3N4, and SiO2) on Si substrates , 1978 .

[9]  A. Bohg,et al.  Influence of film stress and thermal oxidation on the generation of dislocations in silicon , 1978 .

[10]  Yasuo Wada,et al.  Grain Growth Mechanism of Heavily Phosphorus‐Implanted Polycrystalline Silicon , 1978 .

[11]  Selective Oxidation of Silicon in High Pressure Steam , 1978 .

[12]  E. P. EerNisse,et al.  Stress in thermal SiO2 during growth , 1979 .

[13]  Krishna C. Saraswat,et al.  Dopant segregation in polycrystalline silicon , 1980 .

[14]  Stability of LPCVD Polysilicon Gates on Thin Oxides , 1980 .

[15]  T. F. Retajczyk,et al.  Elastic stiffness and thermal expansion coefficient of BN films , 1980 .

[16]  Hiroaki Mikoshiba,et al.  Stress-sensitive properties of silicon-gate MOS devices , 1981 .

[17]  F. Shimura,et al.  Heterogeneous distribution of interstitial oxygen in annealed Czochralski‐grown silicon crystals , 1981 .

[18]  R. B. Marcus,et al.  The Oxidation of Shaped Silicon Surfaces , 1982 .