Title of article
Emission processes of molecule–metal cluster ions from self-assembled monolayers of octanethiols on gold and silver
Author/Authors
B. Arezki*، نويسنده , , A. Delcorte، نويسنده , , P. Bertrand، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
5
From page
122
To page
126
Abstract
In this contribution, we focus on the emission processes of molecule–metal cluster ions from self-assembled monolayers
(SAMs) of octanethiols CH3(CH2)7SH on gold and silver. To improve our understanding of these complex phenomena, mass
spectra and kinetic energy distributions (KEDs) of these two systems have been measured and compared using time-of-flight-
SIMS under 15 keV Gaþ bombardment.
First, the spectra obtained from SAMs/Ag exhibit positive (M–H)mAgmþ1þ and negative (M–H)mAgm 1 cluster ions that are
generally more intense than the (M–H)mAun observed for SAMs/Au. This trend is attributed to the electronegativity difference
between S and these two metals resulting in a more ionic Ag–S bond.
Second, our results show that, like for the SAM/Au system already investigated, unimolecular dissociation of Ag-thiolate
clusters in the acceleration section of the spectrometer is an important formation mechanism. The fraction of the (M–H)mAgnþ,
aggregates formed in the vacuum via this process is even significantly higher than that of the (M–H)mAun cluster ions. This
suggests that the cluster ions ejected from SAMs/Ag are less stable than those ejected from SAMs/Au. It is also observed that the
high energy parts of the KEDs are steeper than for gold, which is probably due to the same phenomenon.
# 2004 Elsevier B.V. All rights reserved.
Keywords
Cluster ion emission , Alkanethiols , Gold , Silver , ToF-SIMS
Journal title
Applied Surface Science
Serial Year
2004
Journal title
Applied Surface Science
Record number
999575
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