Single-crystal Si formed on amorphous substrate at low temperature by nanopatterning and nickel-induced lateral crystallization

Jian Gu; Stephen Y. Chou; Nan Yao; Henny Zandbergen; Jeffrey K. Farrer

doi:10.1063/1.1498146

Single-crystal Si formed on amorphous substrate at low temperature by nanopatterning and nickel-induced lateral crystallization

Jian Gu, Stephen Y. Chou, Nan Yao, Henny Zandbergen, Jeffrey K. Farrer

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

10 Scopus citations

Abstract

Single-crystal silicon has been achieved by patterning amorphous silicon film on silicon dioxide substrate into nanoscale lines and nickel-induced lateral crystallization. Line width affects the single-crystal silicon formation significantly. Narrow line widths, 30 nm or less, resulted in little lateral crystallization; while for line widths above 250 nm, multiple grains started to form. In-situ transmission electron microscope observation has been used to study the crystallization process. Lithography-constrained single seeding is proposed to explain the single-crystal formation.

Original language	English (US)
Pages (from-to)	1104-1106
Number of pages	3
Journal	Applied Physics Letters
Volume	81
Issue number	6
DOIs	https://doi.org/10.1063/1.1498146
State	Published - Aug 5 2002
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1063/1.1498146

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abstract = "Single-crystal silicon has been achieved by patterning amorphous silicon film on silicon dioxide substrate into nanoscale lines and nickel-induced lateral crystallization. Line width affects the single-crystal silicon formation significantly. Narrow line widths, 30 nm or less, resulted in little lateral crystallization; while for line widths above 250 nm, multiple grains started to form. In-situ transmission electron microscope observation has been used to study the crystallization process. Lithography-constrained single seeding is proposed to explain the single-crystal formation.",

author = "Jian Gu and Chou, {Stephen Y.} and Nan Yao and Henny Zandbergen and Farrer, {Jeffrey K.}",

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T1 - Single-crystal Si formed on amorphous substrate at low temperature by nanopatterning and nickel-induced lateral crystallization

AU - Gu, Jian

AU - Chou, Stephen Y.

AU - Yao, Nan

AU - Zandbergen, Henny

AU - Farrer, Jeffrey K.

PY - 2002/8/5

Y1 - 2002/8/5

N2 - Single-crystal silicon has been achieved by patterning amorphous silicon film on silicon dioxide substrate into nanoscale lines and nickel-induced lateral crystallization. Line width affects the single-crystal silicon formation significantly. Narrow line widths, 30 nm or less, resulted in little lateral crystallization; while for line widths above 250 nm, multiple grains started to form. In-situ transmission electron microscope observation has been used to study the crystallization process. Lithography-constrained single seeding is proposed to explain the single-crystal formation.

AB - Single-crystal silicon has been achieved by patterning amorphous silicon film on silicon dioxide substrate into nanoscale lines and nickel-induced lateral crystallization. Line width affects the single-crystal silicon formation significantly. Narrow line widths, 30 nm or less, resulted in little lateral crystallization; while for line widths above 250 nm, multiple grains started to form. In-situ transmission electron microscope observation has been used to study the crystallization process. Lithography-constrained single seeding is proposed to explain the single-crystal formation.

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Single-crystal Si formed on amorphous substrate at low temperature by nanopatterning and nickel-induced lateral crystallization

Abstract

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