Major stable surface of silicon: Si(20 4 23)

Zheng Gai; R. G. Zhao; Wenjie Li; Y. Fujikawa; T. Sakurai; W. S. Yang

Major stable surface of silicon: Si(20 4 23)

Zheng Gai, R. G. Zhao, Wenjie Li, Y. Fujikawa, T. Sakurai, W. S. Yang

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

28 Scopus citations

Abstract

Clean and well-annealed Si(515), (516), and (405) surfaces have been investigated by means of scanning tunnel microscope (STM) and low-energy electron diffraction and it turns out that these surfaces are unstable while Si(20 4 23) is stable, because the former three all consist of {20 4 23} facets. On the basis of the high-resolution dual-bias STM images of the Si(20 4 23) 1 ×1 surface, a detailed structural model of the surface has been proposed for further investigation. As the unit cell of the Si(20 4 23) surface has its own structure rather than consisting of nanofacets of other stable surface(s) the surface is identified, by definition, as a major stable surface (or MAJOR). Interestingly, among all MAJOR's of silicon that have been found so far (20 4 23) is the only one that silicon does not share with germanium.

Original language	English
Article number	125201
Pages (from-to)	1252011-1252016
Number of pages	6
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	64
Issue number	12
State	Published - Sep 15 2001
Externally published	Yes

Cite this

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abstract = "Clean and well-annealed Si(515), (516), and (405) surfaces have been investigated by means of scanning tunnel microscope (STM) and low-energy electron diffraction and it turns out that these surfaces are unstable while Si(20 4 23) is stable, because the former three all consist of {20 4 23} facets. On the basis of the high-resolution dual-bias STM images of the Si(20 4 23) 1 ×1 surface, a detailed structural model of the surface has been proposed for further investigation. As the unit cell of the Si(20 4 23) surface has its own structure rather than consisting of nanofacets of other stable surface(s) the surface is identified, by definition, as a major stable surface (or MAJOR). Interestingly, among all MAJOR's of silicon that have been found so far (20 4 23) is the only one that silicon does not share with germanium.",

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T1 - Major stable surface of silicon

T2 - Si(20 4 23)

AU - Gai, Zheng

AU - Zhao, R. G.

AU - Li, Wenjie

AU - Fujikawa, Y.

AU - Sakurai, T.

AU - Yang, W. S.

PY - 2001/9/15

Y1 - 2001/9/15

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AB - Clean and well-annealed Si(515), (516), and (405) surfaces have been investigated by means of scanning tunnel microscope (STM) and low-energy electron diffraction and it turns out that these surfaces are unstable while Si(20 4 23) is stable, because the former three all consist of {20 4 23} facets. On the basis of the high-resolution dual-bias STM images of the Si(20 4 23) 1 ×1 surface, a detailed structural model of the surface has been proposed for further investigation. As the unit cell of the Si(20 4 23) surface has its own structure rather than consisting of nanofacets of other stable surface(s) the surface is identified, by definition, as a major stable surface (or MAJOR). Interestingly, among all MAJOR's of silicon that have been found so far (20 4 23) is the only one that silicon does not share with germanium.

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Major stable surface of silicon: Si(20 4 23)

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