Growth of Ni2Si by rapid thermal annealing: Kinetics and moving species

E. Ma; B. S. Lim; M. A. Nicolet; M. Natan

doi:10.1007/BF00626417

Growth of Ni₂Si by rapid thermal annealing: Kinetics and moving species

E. Ma
, B. S. Lim
, M. A. Nicolet
, M. Natan

California Institute of Technology
Lockheed Martin

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

10 Scopus citations

Abstract

The growth kinetics is characterized and the moving species is identified for the formation of Ni₂Si by Rapid Thermal Annealing (RTA) of sequentially deposited Si and Ni films on a 〈100〉 Si substrate. The interfacial Ni₂Si layer grows as the square root of time, indicating that the suicide growth process is diffusion-limited. The activation energy is 1.25±0.2 eV in the RTA temperature range of 350-450° C. The results extend those of conventional steady-state furnace annealing quite fittingly, and a common activation energy of 1.3±0.2 eV is deduced from 225° to 450° C. The marker experiment shows that Ni is the dominant moving species during Ni₂Si formation by RTA, as is the case for furnace annealing. It is concluded that the two annealing techniques induce the same growth mechanisms in Ni₂Si formation.

Original language	English
Pages (from-to)	157-160
Number of pages	4
Journal	Applied Physics A: Materials Science and Processing
Volume	44
Issue number	2
DOIs	https://doi.org/10.1007/BF00626417
State	Published - Oct 1987
Externally published	Yes

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SDG 3 Good Health and Well-being

Keywords

66.30, -h
68.55, +b

Access to Document

10.1007/BF00626417

Cite this

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title = "Growth of Ni2Si by rapid thermal annealing: Kinetics and moving species",

abstract = "The growth kinetics is characterized and the moving species is identified for the formation of Ni2Si by Rapid Thermal Annealing (RTA) of sequentially deposited Si and Ni films on a 〈100〉 Si substrate. The interfacial Ni2Si layer grows as the square root of time, indicating that the suicide growth process is diffusion-limited. The activation energy is 1.25±0.2 eV in the RTA temperature range of 350-450° C. The results extend those of conventional steady-state furnace annealing quite fittingly, and a common activation energy of 1.3±0.2 eV is deduced from 225° to 450° C. The marker experiment shows that Ni is the dominant moving species during Ni2Si formation by RTA, as is the case for furnace annealing. It is concluded that the two annealing techniques induce the same growth mechanisms in Ni2Si formation.",

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TY - JOUR

T1 - Growth of Ni2Si by rapid thermal annealing

T2 - Kinetics and moving species

AU - Ma, E.

AU - Lim, B. S.

AU - Nicolet, M. A.

AU - Natan, M.

PY - 1987/10

Y1 - 1987/10

N2 - The growth kinetics is characterized and the moving species is identified for the formation of Ni2Si by Rapid Thermal Annealing (RTA) of sequentially deposited Si and Ni films on a 〈100〉 Si substrate. The interfacial Ni2Si layer grows as the square root of time, indicating that the suicide growth process is diffusion-limited. The activation energy is 1.25±0.2 eV in the RTA temperature range of 350-450° C. The results extend those of conventional steady-state furnace annealing quite fittingly, and a common activation energy of 1.3±0.2 eV is deduced from 225° to 450° C. The marker experiment shows that Ni is the dominant moving species during Ni2Si formation by RTA, as is the case for furnace annealing. It is concluded that the two annealing techniques induce the same growth mechanisms in Ni2Si formation.

AB - The growth kinetics is characterized and the moving species is identified for the formation of Ni2Si by Rapid Thermal Annealing (RTA) of sequentially deposited Si and Ni films on a 〈100〉 Si substrate. The interfacial Ni2Si layer grows as the square root of time, indicating that the suicide growth process is diffusion-limited. The activation energy is 1.25±0.2 eV in the RTA temperature range of 350-450° C. The results extend those of conventional steady-state furnace annealing quite fittingly, and a common activation energy of 1.3±0.2 eV is deduced from 225° to 450° C. The marker experiment shows that Ni is the dominant moving species during Ni2Si formation by RTA, as is the case for furnace annealing. It is concluded that the two annealing techniques induce the same growth mechanisms in Ni2Si formation.

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