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Microstructural Evolution of Nickel Induced Crystallization of Amorphous Silicon

Published online by Cambridge University Press:  01 February 2011

Kyu Ho Park ,
Young Woo Jeong ,
Hyun Ja Kwon ,
Jeong Soo Lee ,
Binn Kim ,
Hae Yeol  and
Hyun Sik Seo
Kyu Ho Park
Affiliation:
LG ElectronicsInstitute of Technology, Seoul, Korea
Young Woo Jeong
Affiliation:
LG ElectronicsInstitute of Technology, Seoul, Korea
Hyun Ja Kwon
Affiliation:
LG ElectronicsInstitute of Technology, Seoul, Korea
Jeong Soo Lee
Affiliation:
LG ElectronicsInstitute of Technology, Seoul, Korea
Binn Kim
Affiliation:
LG.Philips LCD Research Center, Anyang, Korea
Hyun Sik Seo
Affiliation:
LG.Philips LCD Research Center, Anyang, Korea
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Abstract

The Ni silicide-mediated phase transformation of amorphous to crystalline silicon (c-Si) was studied using transmission electron microscopy. Amorphous silicon (a-Si) films coated with very thin Ni layer (∼10-1Å) were annealed at various temperatures. Randomly oriented NiSi2 precipitates were observed in the Ni deposited a-Si film annealed at 400°C. The nucleation of the epitaxial c-Si has occurred on the {111} faces of the octahedral NiSi2 precipitate at 430°C and then caused to the variation in the shape of the NiSi2 precipitates. During the growth of c-Si, the needle-like morphology developed from the migration of NiSi2 precipitates through the a-Si matrix leaving a trail of c-Si. The collision of a migrating NiSi2 precipitate with a stationary NiSi2 precipitates in the a-Si film gave rise to the change in the morphology of the growing Si grain and the formation of additional c-Si needles on variants of the <111> direction.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 715: Symposium A – Amorphous and Heterogeneous Silicon-Based Films-2002 , 2002 , A22.6
Copyright
Copyright © Materials Research Society 2002

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