AI Article Synopsis
- Characteristic core level binding energies (CLBEs) help understand how molecules attach to surfaces, specifically in terms of their orientation and organization during adsorption.
- The study examines thiol self-assembled monolayers (SAMs) using 1,4-benzenedimethanethiol (BDMT) and finds an unusual CLBE at 161.25 eV that may suggest an alternative adsorption site instead of atomic sulfur from dissociation.
- Through calculations of binding energies and adsorption configurations, the researchers provide insights that refine interpretations of thiol bonding and highlight potential errors in previous assignments of sulfur states.
Article Abstract
Characteristic core level binding energies (CLBEs) are regularly used to infer the modes of molecular adsorption: orientation, organization, and dissociation processes. Here, we focus on a largely debated situation regarding CLBEs in the case of chalcogen atom bearing molecules. For a thiol, this concerns the case when the CLBE of a thiolate sulfur at an adsorption site can be interpreted alternatively as due to atomic adsorption of a S atom, resulting from dissociation. Results of an investigation of the characteristics of thiol self-assembled monolayers (SAMs) obtained by vacuum evaporative adsorption are presented along with core level binding energy calculations. Thiol ended SAMs of 1,4-benzenedimethanethiol (BDMT) obtained by evaporation on Au display an unconventional CLBE structure at about 161.25 eV, which is close to a known CLBE of a S atom on Au. Adsorption and CLBE calculations for sulfur atoms and BDMT molecules are reported and allow delineating trends as a function of chemisorption on hollow, bridge, and atop sites and including the presence of adatoms. These calculations suggest that the 161.25 eV peak is due to an alternative adsorption site, which could be associated to an atop configuration. Therefore, this may be an alternative interpretation, different from the one involving the adsorption of atomic sulfur resulting from the dissociation process of the S-C bond. Calculated differences in S(2p) CLBEs for free BDMT molecules, SH group sulfur on top of the SAM, and disulfide are also reported to clarify possible errors in assignments.
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| http://dx.doi.org/10.1063/1.4929350 | DOI Listing |
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