G. Raymond scite author profile

International audienceThe authors conducted a physico-chemical analysis of tensile sequential-nitrogen-plasma-treated silicon nitride films, which function as stressor liners in complementary metal oxide semiconductor (CMOS) technologies. These films are made of stacked nanometer-thick, plasma-enhanced, chemical vapor-deposited layers which were individually treated with N(2)-plasma, to increase stress. This study allowed us to monitor the evolution of the films' chemical composition and stress as a function of process parameters such as deposition and post-N(2)-plasma duration. Consistent with secondary ion mass spectroscopy (SIMS), transmission electron microscopy (TEM) and other physico-chemical analysis results, it was shown that the elementary component of the films can be modeled with a bi-layer consisting of an untreated slice at the bottom that is covered by a more tensile post-treated film. In addition, we observed that longer plasma treatments increase residual stress, SiN bond concentration and layer density, while reducing hydrogen content. The stress increase induced by the plasma treatment was shown to correlate with the increase in SiN bonds following a percolation mechanism that is linked to hydrogen dissociation. Kinetics laws describing both SiN bond generation and stress increase are proposed and it is demonstrated that stress increase follows first-order kinetics. (C) 2011 American Vacuum Society

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Thermal History Index as a bulk quality indicator for Czochralski solar wafers

Veirman

Martel

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et al. 2016

Solar Energy Materials and Solar Cells

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Elastic properties of tensile nitrogen-plasma-treated multilayer silicon nitride films

et al. 2014

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G. Raymond

A comparison of the mechanical stability of silicon nitride films deposited with various techniques

Study of stress in tensile nitrogen-plasma-treated multilayer silicon nitride films

Thermal History Index as a bulk quality indicator for Czochralski solar wafers

Elastic properties of tensile nitrogen-plasma-treated multilayer silicon nitride films

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