Growth kinetics and thermal stability of a self-formed barrier layer at Cu-Mn SiO2 interface

J. Koike; M. Haneda; J. Iijima; Y. Otsuka; H. Sako; K. Neishi

doi:10.1063/1.2773699

Growth kinetics and thermal stability of a self-formed barrier layer at Cu-Mn SiO2 interface

J. Koike, M. Haneda, J. Iijima, Y. Otsuka, H. Sako, K. Neishi

ENG - Materials Science

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

105 Citations (Scopus)

Abstract

A thin diffusion barrier was self-formed by annealing at an interface between a Cu-Mn alloy film and a SiO2 substrate. The growth of the barrier layer followed a logarithmic rate law, which represents field-enhanced growth mechanism in the early stage and self-limiting growth behavior in the late stage. The barrier layer was stable at 450 °C for 100 h and at 600 °C for 10 h. The interface diffusivity was estimated from the morphology change of the barrier layer at 600 °C and was found to be smaller than the grain-boundary diffusivity of bulk Cu.

Original language	English
Article number	043527
Journal	Journal of Applied Physics
Volume	102
Issue number	4
DOIs	https://doi.org/10.1063/1.2773699
Publication status	Published - 2007

ASJC Scopus subject areas

Physics and Astronomy(all)

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title = "Growth kinetics and thermal stability of a self-formed barrier layer at Cu-Mn SiO2 interface",

abstract = "A thin diffusion barrier was self-formed by annealing at an interface between a Cu-Mn alloy film and a SiO2 substrate. The growth of the barrier layer followed a logarithmic rate law, which represents field-enhanced growth mechanism in the early stage and self-limiting growth behavior in the late stage. The barrier layer was stable at 450 °C for 100 h and at 600 °C for 10 h. The interface diffusivity was estimated from the morphology change of the barrier layer at 600 °C and was found to be smaller than the grain-boundary diffusivity of bulk Cu.",

author = "J. Koike and M. Haneda and J. Iijima and Y. Otsuka and H. Sako and K. Neishi",

note = "Funding Information: The work was performed under the financial support by the Japan Science and Technology Agency, Innovation Plaza Miyagi. We are grateful to Dr. H. Shibata and T. Usui at Toshiba Corporation for fruitful discussion and to Dr. M. Koide of Mitsubishi Materials Corporation for providing high-purity Cu targets. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.",

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AU - Koike, J.

AU - Haneda, M.

AU - Iijima, J.

AU - Otsuka, Y.

AU - Sako, H.

AU - Neishi, K.

N1 - Funding Information: The work was performed under the financial support by the Japan Science and Technology Agency, Innovation Plaza Miyagi. We are grateful to Dr. H. Shibata and T. Usui at Toshiba Corporation for fruitful discussion and to Dr. M. Koide of Mitsubishi Materials Corporation for providing high-purity Cu targets. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.

PY - 2007

Y1 - 2007

N2 - A thin diffusion barrier was self-formed by annealing at an interface between a Cu-Mn alloy film and a SiO2 substrate. The growth of the barrier layer followed a logarithmic rate law, which represents field-enhanced growth mechanism in the early stage and self-limiting growth behavior in the late stage. The barrier layer was stable at 450 °C for 100 h and at 600 °C for 10 h. The interface diffusivity was estimated from the morphology change of the barrier layer at 600 °C and was found to be smaller than the grain-boundary diffusivity of bulk Cu.

AB - A thin diffusion barrier was self-formed by annealing at an interface between a Cu-Mn alloy film and a SiO2 substrate. The growth of the barrier layer followed a logarithmic rate law, which represents field-enhanced growth mechanism in the early stage and self-limiting growth behavior in the late stage. The barrier layer was stable at 450 °C for 100 h and at 600 °C for 10 h. The interface diffusivity was estimated from the morphology change of the barrier layer at 600 °C and was found to be smaller than the grain-boundary diffusivity of bulk Cu.

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Growth kinetics and thermal stability of a self-formed barrier layer at Cu-Mn SiO2 interface

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