Surface bonding and dynamical behavior of the CH 3SH molecule on Au(111)

Peter Maksymovych; Dan C. Sorescu; Dan Dougherty; John T. Yates

doi:10.1021/jp058154u

Surface bonding and dynamical behavior of the CH ₃SH molecule on Au(111)

Peter Maksymovych, Dan C. Sorescu, Dan Dougherty, John T. Yates

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82 Scopus citations

Abstract

The chemisorption of the undissociated CH ₃SH molecule on the Au(111) surface has been studied at 5 K using scanning tunneling microscopy (STM) and density functional theory (DFT) calculations. The molecule was found to adsorb on atop Au sites on the defect-free surface. CH ₃SH undergoes hindered rotation about the Au-S bond on the defect-free surface which is seen in STM as a time-averaged 6-fold pattern. The pattern suggests that the potential minima directions occur for the rotating molecule at the six hollow sites surrounding the atop adsorption site. The barrier for rotation, obtained by DFT calculations, is ∼0.1 kcal·mol ^-1. At low coverages, preferential adsorption occurs at defect sites in the surface, namely, the herringbone "elbows" and random atomic step sites. Molecules adsorbed on these sites do not exhibit rotational freedom.

Original language	English
Pages (from-to)	22463-22468
Number of pages	6
Journal	Journal of Physical Chemistry B
Volume	109
Issue number	47
DOIs	https://doi.org/10.1021/jp058154u
State	Published - Dec 1 2005
Externally published	Yes

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title = "Surface bonding and dynamical behavior of the CH 3SH molecule on Au(111)",

abstract = "The chemisorption of the undissociated CH 3SH molecule on the Au(111) surface has been studied at 5 K using scanning tunneling microscopy (STM) and density functional theory (DFT) calculations. The molecule was found to adsorb on atop Au sites on the defect-free surface. CH 3SH undergoes hindered rotation about the Au-S bond on the defect-free surface which is seen in STM as a time-averaged 6-fold pattern. The pattern suggests that the potential minima directions occur for the rotating molecule at the six hollow sites surrounding the atop adsorption site. The barrier for rotation, obtained by DFT calculations, is ∼0.1 kcal·mol -1. At low coverages, preferential adsorption occurs at defect sites in the surface, namely, the herringbone {"}elbows{"} and random atomic step sites. Molecules adsorbed on these sites do not exhibit rotational freedom.",

author = "Peter Maksymovych and Sorescu, \{Dan C.\} and Dan Dougherty and Yates, \{John T.\}",

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T1 - Surface bonding and dynamical behavior of the CH 3SH molecule on Au(111)

AU - Maksymovych, Peter

AU - Sorescu, Dan C.

AU - Dougherty, Dan

AU - Yates, John T.

PY - 2005/12/1

Y1 - 2005/12/1

N2 - The chemisorption of the undissociated CH 3SH molecule on the Au(111) surface has been studied at 5 K using scanning tunneling microscopy (STM) and density functional theory (DFT) calculations. The molecule was found to adsorb on atop Au sites on the defect-free surface. CH 3SH undergoes hindered rotation about the Au-S bond on the defect-free surface which is seen in STM as a time-averaged 6-fold pattern. The pattern suggests that the potential minima directions occur for the rotating molecule at the six hollow sites surrounding the atop adsorption site. The barrier for rotation, obtained by DFT calculations, is ∼0.1 kcal·mol -1. At low coverages, preferential adsorption occurs at defect sites in the surface, namely, the herringbone "elbows" and random atomic step sites. Molecules adsorbed on these sites do not exhibit rotational freedom.

AB - The chemisorption of the undissociated CH 3SH molecule on the Au(111) surface has been studied at 5 K using scanning tunneling microscopy (STM) and density functional theory (DFT) calculations. The molecule was found to adsorb on atop Au sites on the defect-free surface. CH 3SH undergoes hindered rotation about the Au-S bond on the defect-free surface which is seen in STM as a time-averaged 6-fold pattern. The pattern suggests that the potential minima directions occur for the rotating molecule at the six hollow sites surrounding the atop adsorption site. The barrier for rotation, obtained by DFT calculations, is ∼0.1 kcal·mol -1. At low coverages, preferential adsorption occurs at defect sites in the surface, namely, the herringbone "elbows" and random atomic step sites. Molecules adsorbed on these sites do not exhibit rotational freedom.

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JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

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ER -

Surface bonding and dynamical behavior of the CH ₃SH molecule on Au(111)

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