Effect of Cu3 Sn coatings on electromigration lifetime improvement of Cu dual-damascene interconnects

M. Y. Yan; J. O. Suh; F. Ren; K. N. Tu; A. V. Vairagar; S. G. Mhaisalkar; Ahila Krishnamoorthy

doi:10.1063/1.2132536

Effect of Cu3 Sn coatings on electromigration lifetime improvement of Cu dual-damascene interconnects

M. Y. Yan^*, J. O. Suh, F. Ren, K. N. Tu, A. V. Vairagar, S. G. Mhaisalkar, Ahila Krishnamoorthy

^*Corresponding author for this work

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

29 Citations (Scopus)

Abstract

A 20 nm thick Cu3 Sn intermetallic compound overlayer on Cu interconnect surfaces was found to effectively block dominant surface diffusion paths, thus resulting in close to one order of magnitude improvement in electromigration lifetimes. This improvement may be explained on the basis of the terrace-ledge-kink model in which the supply of Cu adatoms by the dissociation of atoms from the kinks on the Cu surface steps is hindered by a stronger chemical binding of Sn atoms to the kink sites. The mode of electromigration failures seem to have changed from surface diffusion-induced void formation at the cathode via corner to interfacial and grain-boundary diffusion-induced void formation in the interconnect line.

Original language	English
Article number	211103
Pages (from-to)	1-3
Number of pages	3
Journal	Applied Physics Letters
Volume	87
Issue number	21
DOIs	https://doi.org/10.1063/1.2132536
Publication status	Published - 2005
Externally published	Yes

ASJC Scopus Subject Areas

Physics and Astronomy (miscellaneous)

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abstract = "A 20 nm thick Cu3 Sn intermetallic compound overlayer on Cu interconnect surfaces was found to effectively block dominant surface diffusion paths, thus resulting in close to one order of magnitude improvement in electromigration lifetimes. This improvement may be explained on the basis of the terrace-ledge-kink model in which the supply of Cu adatoms by the dissociation of atoms from the kinks on the Cu surface steps is hindered by a stronger chemical binding of Sn atoms to the kink sites. The mode of electromigration failures seem to have changed from surface diffusion-induced void formation at the cathode via corner to interfacial and grain-boundary diffusion-induced void formation in the interconnect line.",

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AU - Yan, M. Y.

AU - Suh, J. O.

AU - Ren, F.

AU - Tu, K. N.

AU - Vairagar, A. V.

AU - Mhaisalkar, S. G.

AU - Krishnamoorthy, Ahila

PY - 2005

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N2 - A 20 nm thick Cu3 Sn intermetallic compound overlayer on Cu interconnect surfaces was found to effectively block dominant surface diffusion paths, thus resulting in close to one order of magnitude improvement in electromigration lifetimes. This improvement may be explained on the basis of the terrace-ledge-kink model in which the supply of Cu adatoms by the dissociation of atoms from the kinks on the Cu surface steps is hindered by a stronger chemical binding of Sn atoms to the kink sites. The mode of electromigration failures seem to have changed from surface diffusion-induced void formation at the cathode via corner to interfacial and grain-boundary diffusion-induced void formation in the interconnect line.

AB - A 20 nm thick Cu3 Sn intermetallic compound overlayer on Cu interconnect surfaces was found to effectively block dominant surface diffusion paths, thus resulting in close to one order of magnitude improvement in electromigration lifetimes. This improvement may be explained on the basis of the terrace-ledge-kink model in which the supply of Cu adatoms by the dissociation of atoms from the kinks on the Cu surface steps is hindered by a stronger chemical binding of Sn atoms to the kink sites. The mode of electromigration failures seem to have changed from surface diffusion-induced void formation at the cathode via corner to interfacial and grain-boundary diffusion-induced void formation in the interconnect line.

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Effect of Cu3 Sn coatings on electromigration lifetime improvement of Cu dual-damascene interconnects

Abstract

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