AI Article Synopsis
- A study investigates the adsorption of three dithiol compounds (BDT, HDT, NDT) on gold surfaces (Au(111)) using different solvents and preparation techniques.
- Results show that the structure of the dithiols varies, with longer chain length leading to more standing-up configurations, and that conditions like solvent and oxygen presence play a critical role in this outcome.
- Despite conditions favoring longer dithiols, no multilayer formation or disulfide linkages were seen in BDT, highlighting the importance of chain length and preparation methods in self-assembled monolayers (SAMs).
Article Abstract
A comparative study on the adsorption of buthanedithiol (BDT), hexanedithiol (HDT), and nonanedithiol (NDT) on Au(111) from ethanolic and n-hexane solutions and two different preparation procedures is presented. SAM characterization is based on reflection-absorption infrared spectroscopy, electrochemistry, X-ray photoelectron spectroscopy, and time of flight direct recoil spectroscopy. Results indicate that one can obtain a standing-up phase of dithiols and that the amount of the precursor lying-down phase decreases from BDT to NDT, irrespective of the solvent and self-assembly conditions. A good ordering of the hydrocarbon chains in the standing-up configuration is observed for HDT and NDT when the system is prepared in degassed n-hexane with all operations carried out in the dark. Disulfide bridges at the free SH terminal groups are formed for HDT and to a lesser extent for NDT prepared in ethanol in the presence of oxygen, but we found no evidence of ordered multilayer formation in our experiments. No disulfides were observed for BDT that only forms the lying-down phase. Our results demonstrate the key role of the chain length and the procedure (solvent nature and oxygen presence) in controlling the surface structure and chemistry of SAMs dithiols on Au(111).
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