Change in the interfacial reaction of Hf-silicate film as a function of thickness and stoichiometry

M. H. Cho; C. Y. Kim; K. Moon; K. B. Chung; C. J. Yim; D. H. Ko; H. C. Sohn; Hyeongtag Jeon

doi:10.1063/1.2955461

Change in the interfacial reaction of Hf-silicate film as a function of thickness and stoichiometry

M. H. Cho, C. Y. Kim, K. Moon, K. B. Chung, C. J. Yim, D. H. Ko, H. C. Sohn, Hyeongtag Jeon

Department of Physics

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Medium energy ion scattering and high-resolution transmission electron microscopy are used to investigate the depth of the interfacial reaction of Hf-silicate film. The interfacial reaction is critically affected by the film thickness and the mole fraction of Hf O2 in silicate film. The interfacial compressive strain generated at the surface of the Si substrate is dependent on the film thickness during the postannealing process in film with a thickness of ∼4 nm. Finally, the phase separation phenomenon demonstrates critically different behaviors at different film thicknesses and stoichiometries because the diffusion of Si from interface to surface is dependent on these factors. Moreover, the oxidation by oxygen impurity in the inert ambient causes Si O2 top formation.

Original language	English
Article number	034705
Journal	Journal of Chemical Physics
Volume	129
Issue number	3
DOIs	https://doi.org/10.1063/1.2955461
State	Published - 2008

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abstract = "Medium energy ion scattering and high-resolution transmission electron microscopy are used to investigate the depth of the interfacial reaction of Hf-silicate film. The interfacial reaction is critically affected by the film thickness and the mole fraction of Hf O2 in silicate film. The interfacial compressive strain generated at the surface of the Si substrate is dependent on the film thickness during the postannealing process in film with a thickness of ∼4 nm. Finally, the phase separation phenomenon demonstrates critically different behaviors at different film thicknesses and stoichiometries because the diffusion of Si from interface to surface is dependent on these factors. Moreover, the oxidation by oxygen impurity in the inert ambient causes Si O2 top formation.",

author = "Cho, {M. H.} and Kim, {C. Y.} and K. Moon and Chung, {K. B.} and Yim, {C. J.} and Ko, {D. H.} and Sohn, {H. C.} and Hyeongtag Jeon",

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volume = "129",

journal = "Journal of Chemical Physics",

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AU - Cho, M. H.

AU - Kim, C. Y.

AU - Moon, K.

AU - Chung, K. B.

AU - Yim, C. J.

AU - Ko, D. H.

AU - Sohn, H. C.

AU - Jeon, Hyeongtag

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AB - Medium energy ion scattering and high-resolution transmission electron microscopy are used to investigate the depth of the interfacial reaction of Hf-silicate film. The interfacial reaction is critically affected by the film thickness and the mole fraction of Hf O2 in silicate film. The interfacial compressive strain generated at the surface of the Si substrate is dependent on the film thickness during the postannealing process in film with a thickness of ∼4 nm. Finally, the phase separation phenomenon demonstrates critically different behaviors at different film thicknesses and stoichiometries because the diffusion of Si from interface to surface is dependent on these factors. Moreover, the oxidation by oxygen impurity in the inert ambient causes Si O2 top formation.

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JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

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ER -

Change in the interfacial reaction of Hf-silicate film as a function of thickness and stoichiometry

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