Transmission electron microscopy study of electroless nip and cu films at initial deposition stage

T. Homma; K. Naito; M. Takai; T. Osaka; Y. Yamozaki; T. Namikawa

doi:10.1149/1.2085771

Transmission electron microscopy study of electroless nip and cu films at initial deposition stage

T. Homma, K. Naito, M. Takai, T. Osaka, Y. Yamozaki, T. Namikawa

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

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Abstract

Microstructures of electroless NiP and Cu films at the initial deposition stages, deposited onto dielectric substrates, were examined by transmission electron microscopy. The difference in the initial deposition conditions between NiP and Cu films was clearly observed; it is suggested that their growth processes depended mainly on the initial crystalline states. The NiP deposits consist of very fine component crystallites that grow isotropically to form uniform and spherical grains. On the other hand, the Cu deposits are composed of larger component crystallites. They grow along their crystalline axes with random orientation, resulting in their angular and irregular deposition conditions.

Original language	English
Pages (from-to)	1269-1274
Number of pages	6
Journal	Journal of the Electrochemical Society
Volume	138
Issue number	5
DOIs	https://doi.org/10.1149/1.2085771
Publication status	Published - 1991 May

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Renewable Energy, Sustainability and the Environment
Surfaces, Coatings and Films
Electrochemistry
Materials Chemistry

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10.1149/1.2085771

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abstract = "Microstructures of electroless NiP and Cu films at the initial deposition stages, deposited onto dielectric substrates, were examined by transmission electron microscopy. The difference in the initial deposition conditions between NiP and Cu films was clearly observed; it is suggested that their growth processes depended mainly on the initial crystalline states. The NiP deposits consist of very fine component crystallites that grow isotropically to form uniform and spherical grains. On the other hand, the Cu deposits are composed of larger component crystallites. They grow along their crystalline axes with random orientation, resulting in their angular and irregular deposition conditions.",

author = "T. Homma and K. Naito and M. Takai and T. Osaka and Y. Yamozaki and T. Namikawa",

year = "1991",

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T1 - Transmission electron microscopy study of electroless nip and cu films at initial deposition stage

AU - Homma, T.

AU - Naito, K.

AU - Takai, M.

AU - Osaka, T.

AU - Yamozaki, Y.

AU - Namikawa, T.

PY - 1991/5

Y1 - 1991/5

N2 - Microstructures of electroless NiP and Cu films at the initial deposition stages, deposited onto dielectric substrates, were examined by transmission electron microscopy. The difference in the initial deposition conditions between NiP and Cu films was clearly observed; it is suggested that their growth processes depended mainly on the initial crystalline states. The NiP deposits consist of very fine component crystallites that grow isotropically to form uniform and spherical grains. On the other hand, the Cu deposits are composed of larger component crystallites. They grow along their crystalline axes with random orientation, resulting in their angular and irregular deposition conditions.

AB - Microstructures of electroless NiP and Cu films at the initial deposition stages, deposited onto dielectric substrates, were examined by transmission electron microscopy. The difference in the initial deposition conditions between NiP and Cu films was clearly observed; it is suggested that their growth processes depended mainly on the initial crystalline states. The NiP deposits consist of very fine component crystallites that grow isotropically to form uniform and spherical grains. On the other hand, the Cu deposits are composed of larger component crystallites. They grow along their crystalline axes with random orientation, resulting in their angular and irregular deposition conditions.

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JF - Journal of the Electrochemical Society

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Transmission electron microscopy study of electroless nip and cu films at initial deposition stage

Abstract

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