Solution certainty in the Cu(110)-(2×1)-2O2- surface crystallography

Chang Q. Sun; S. Li; B. K. Tay; X. W. Sun; S. P. Lau

doi:10.1142/s0217979202009470

Solution certainty in the Cu(110)-(2×1)-2O^2- surface crystallography

Chang Q. Sun^*, S. Li, B. K. Tay, X. W. Sun, S. P. Lau

^*Corresponding author for this work

Nanyang Technological University

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

5 Citations (Scopus)

Abstract

It has been elegantly accepted that oxygen adsorption onto the Cu(110) surface induces an expansion of the first layer-spacing and a contraction of the second in addition to the alternative Cu[001] row that is either missing or forming the O-Cu-O row of high protrusions. However, it needs yet to clarify the vertical position of the oxygen and the hard-sphere models of added-, missing- and buckled-row. Here we justify that all the structures determined and all the models developed so far are correct in the sense of numerical solutions and phenomenological descriptions. A tetrahedral bond configuration of sp-orbital hybridization developed recently, however, may serve as a criterion to identify the physical solution that could account consistently for the observations using scanning tunneling microscopy/spectroscopy (STM/S), X-ray diffraction (XRD), and ultraviolet photoelectron spectroscopy (UPS).

Original language	English
Pages (from-to)	71-78
Number of pages	8
Journal	International Journal of Modern Physics B
Volume	16
Issue number	1-2
DOIs	https://doi.org/10.1142/s0217979202009470
Publication status	Published - Jan 20 2002
Externally published	Yes

ASJC Scopus Subject Areas

Statistical and Nonlinear Physics
Condensed Matter Physics

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Cite this

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title = "Solution certainty in the Cu(110)-(2×1)-2O2- surface crystallography",

abstract = "It has been elegantly accepted that oxygen adsorption onto the Cu(110) surface induces an expansion of the first layer-spacing and a contraction of the second in addition to the alternative Cu[001] row that is either missing or forming the O-Cu-O row of high protrusions. However, it needs yet to clarify the vertical position of the oxygen and the hard-sphere models of added-, missing- and buckled-row. Here we justify that all the structures determined and all the models developed so far are correct in the sense of numerical solutions and phenomenological descriptions. A tetrahedral bond configuration of sp-orbital hybridization developed recently, however, may serve as a criterion to identify the physical solution that could account consistently for the observations using scanning tunneling microscopy/spectroscopy (STM/S), X-ray diffraction (XRD), and ultraviolet photoelectron spectroscopy (UPS).",

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T1 - Solution certainty in the Cu(110)-(2×1)-2O2- surface crystallography

AU - Sun, Chang Q.

AU - Li, S.

AU - Tay, B. K.

AU - Sun, X. W.

AU - Lau, S. P.

PY - 2002/1/20

Y1 - 2002/1/20

N2 - It has been elegantly accepted that oxygen adsorption onto the Cu(110) surface induces an expansion of the first layer-spacing and a contraction of the second in addition to the alternative Cu[001] row that is either missing or forming the O-Cu-O row of high protrusions. However, it needs yet to clarify the vertical position of the oxygen and the hard-sphere models of added-, missing- and buckled-row. Here we justify that all the structures determined and all the models developed so far are correct in the sense of numerical solutions and phenomenological descriptions. A tetrahedral bond configuration of sp-orbital hybridization developed recently, however, may serve as a criterion to identify the physical solution that could account consistently for the observations using scanning tunneling microscopy/spectroscopy (STM/S), X-ray diffraction (XRD), and ultraviolet photoelectron spectroscopy (UPS).

AB - It has been elegantly accepted that oxygen adsorption onto the Cu(110) surface induces an expansion of the first layer-spacing and a contraction of the second in addition to the alternative Cu[001] row that is either missing or forming the O-Cu-O row of high protrusions. However, it needs yet to clarify the vertical position of the oxygen and the hard-sphere models of added-, missing- and buckled-row. Here we justify that all the structures determined and all the models developed so far are correct in the sense of numerical solutions and phenomenological descriptions. A tetrahedral bond configuration of sp-orbital hybridization developed recently, however, may serve as a criterion to identify the physical solution that could account consistently for the observations using scanning tunneling microscopy/spectroscopy (STM/S), X-ray diffraction (XRD), and ultraviolet photoelectron spectroscopy (UPS).

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Solution certainty in the Cu(110)-(2×1)-2O^2- surface crystallography

Abstract

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