Dynamics and nano-clustering of alkali metals (Na, K) on the Si(1 1 1)-(7 × 7) surface

Kehui Wu; Y. Fujikawa; T. Briere; V. Kumar; Y. Kawazoe; T. Sakurai

doi:10.1016/j.ultramic.2005.06.015

Dynamics and nano-clustering of alkali metals (Na, K) on the Si(1 1 1)-(7 × 7) surface

Kehui Wu, Y. Fujikawa, T. Briere, V. Kumar, Y. Kawazoe, T. Sakurai

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

15 Scopus citations

Abstract

We report scanning tunneling microscopy and work function measurement studies on Na (K) adsorption on the Si(1 1 1)-(7×7) surface at room temperature and sub-monolayer coverage. A systematic comparison is reported on their dynamics and clustering behaviors to reveal the atomic size effect. We find that both Na and K form two-dimensional gases at room temperature and coverage<0.08 ML. K shows faster diffusion speed and stronger charge transfer to the Si substrate as compared to Na. At coverage >0.08 ML, both Na and K form magic clusters consisting of six Na(K) atoms. However, the clustering behaviors of Na and K are very different. In the K case, there is no intermixing between K and Si atoms, and the K clusters are very mobile inside the half (7×7) unit cell, whereas Na clusters are unmovable due to the site-exchange between Na atoms and the Si adatoms.

Original language	English (US)
Pages (from-to)	32-41
Number of pages	10
Journal	Ultramicroscopy
Volume	105
Issue number	1-4
DOIs	https://doi.org/10.1016/j.ultramic.2005.06.015
State	Published - Nov 2005
Externally published	Yes

Keywords

Alkali metals
Clustering
Dynamics
Scanning tunneling microscopy

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Instrumentation

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10.1016/j.ultramic.2005.06.015

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title = "Dynamics and nano-clustering of alkali metals (Na, K) on the Si(1 1 1)-(7 × 7) surface",

abstract = "We report scanning tunneling microscopy and work function measurement studies on Na (K) adsorption on the Si(1 1 1)-(7×7) surface at room temperature and sub-monolayer coverage. A systematic comparison is reported on their dynamics and clustering behaviors to reveal the atomic size effect. We find that both Na and K form two-dimensional gases at room temperature and coverage<0.08 ML. K shows faster diffusion speed and stronger charge transfer to the Si substrate as compared to Na. At coverage >0.08 ML, both Na and K form magic clusters consisting of six Na(K) atoms. However, the clustering behaviors of Na and K are very different. In the K case, there is no intermixing between K and Si atoms, and the K clusters are very mobile inside the half (7×7) unit cell, whereas Na clusters are unmovable due to the site-exchange between Na atoms and the Si adatoms.",

keywords = "Alkali metals, Clustering, Dynamics, Scanning tunneling microscopy",

author = "Kehui Wu and Y. Fujikawa and T. Briere and V. Kumar and Y. Kawazoe and T. Sakurai",

year = "2005",

month = nov,

doi = "10.1016/j.ultramic.2005.06.015",

language = "English (US)",

volume = "105",

pages = "32--41",

journal = "Ultramicroscopy",

issn = "0304-3991",

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}

TY - JOUR

T1 - Dynamics and nano-clustering of alkali metals (Na, K) on the Si(1 1 1)-(7 × 7) surface

AU - Wu, Kehui

AU - Fujikawa, Y.

AU - Briere, T.

AU - Kumar, V.

AU - Kawazoe, Y.

AU - Sakurai, T.

PY - 2005/11

Y1 - 2005/11

N2 - We report scanning tunneling microscopy and work function measurement studies on Na (K) adsorption on the Si(1 1 1)-(7×7) surface at room temperature and sub-monolayer coverage. A systematic comparison is reported on their dynamics and clustering behaviors to reveal the atomic size effect. We find that both Na and K form two-dimensional gases at room temperature and coverage<0.08 ML. K shows faster diffusion speed and stronger charge transfer to the Si substrate as compared to Na. At coverage >0.08 ML, both Na and K form magic clusters consisting of six Na(K) atoms. However, the clustering behaviors of Na and K are very different. In the K case, there is no intermixing between K and Si atoms, and the K clusters are very mobile inside the half (7×7) unit cell, whereas Na clusters are unmovable due to the site-exchange between Na atoms and the Si adatoms.

AB - We report scanning tunneling microscopy and work function measurement studies on Na (K) adsorption on the Si(1 1 1)-(7×7) surface at room temperature and sub-monolayer coverage. A systematic comparison is reported on their dynamics and clustering behaviors to reveal the atomic size effect. We find that both Na and K form two-dimensional gases at room temperature and coverage<0.08 ML. K shows faster diffusion speed and stronger charge transfer to the Si substrate as compared to Na. At coverage >0.08 ML, both Na and K form magic clusters consisting of six Na(K) atoms. However, the clustering behaviors of Na and K are very different. In the K case, there is no intermixing between K and Si atoms, and the K clusters are very mobile inside the half (7×7) unit cell, whereas Na clusters are unmovable due to the site-exchange between Na atoms and the Si adatoms.

KW - Alkali metals

KW - Clustering

KW - Dynamics

KW - Scanning tunneling microscopy

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U2 - 10.1016/j.ultramic.2005.06.015

DO - 10.1016/j.ultramic.2005.06.015

M3 - Article

AN - SCOPUS:27544510168

SN - 0304-3991

VL - 105

SP - 32

EP - 41

JO - Ultramicroscopy

JF - Ultramicroscopy

IS - 1-4

ER -

Dynamics and nano-clustering of alkali metals (Na, K) on the Si(1 1 1)-(7 × 7) surface

Abstract

Keywords

ASJC Scopus subject areas

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