Comparative Study of Tetrahydrothiophene and Thiophene Self Assembled Monolayers on Au(111): Structure and Molecular Orientation

doi:10.5012/bkcs.2009.30.8.1755

Cited by 8 publications

(7 citation statements)

References 34 publications

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“…Similar XPS and NEXAFS results for thiophene reported by Noh et al. ,, showed an S 2p 3/2 peak at 162 eV with a smaller structure at about 161 eV. They concluded that thiophene SAMs form through chemical interaction between the sulfur headgroups in thiophene and the Au(111) surface, but we do not clearly interpret this as due to C–S bond breaking at room temperature.…”

Section: Introductionsupporting

confidence: 63%

“…At room temperature, STM imaging reveals interesting paired row ordered structures, suggesting differently coordinated molecules, which could explain the observation of the two CLBEs mentioned above . In their more recent work they concluded that although they do not observe a peak in NEXAFS at 285.6 eV the 162 eV CLBE corresponds to the bonding of an undissociated thiophene molecule. They affirm this on the basis of observation of ordered structures in STM for thiophene and tetrahydrothiophene (C 4 H 8 S), which has an aliphatic cyclic ring without a π conjugated system.…”

Section: Introductionmentioning

confidence: 92%

“…A number of problems subsist however and among these, there appeared one, relating to possible dissociation of these molecules at the electrode surface that involves S–C bond scission. ,− The existence of such dissociation processes leading to dehydrogenation and desulfurization is known to occur on transition metal surfaces, − which is not very surprising given their high reactivity. However, there are indications in recent literature ,,,,− that this may also occur on the less reactive coinage metal surfaces including gold, which is an important electrode material. This S–C bond scission leads to an opening up of the ring and observation of alkene thiol species.…”

Section: Introductionmentioning

confidence: 99%

“…Quite promising results have been obtained from a molecular electronics point of view. Many studies have therefore been devoted to the formation of multilayer and monolayer films of these molecules on various surfaces of interest as electrodes. ,− …”

Section: Introductionmentioning

confidence: 99%

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Thiophene Derivatives on Gold and Molecular Dissociation Processes

et al. 2017

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We report a systematic study of thiophene derivatives on gold surfaces. These molecules are of interest in molecular electronics, and the characracteristics of the thiophene–electrode interface in devices needs to be understood as it affects electron transport characteristics. Some experiments indicated S–C bond scission in contact with metals resulting in disruption of the π-electron system that affects charge transport, which would also be affected by presence of split-off chemisorbed sulfur. We explored this dissociation aspect by photoemission for the case of monocrystalline Au(111) surfaces and Au films grown on mica for a series of polythiophenes molecules (nT, n = 1–4, 6) as well as for α,ω-diquaterthiophene (DH4T) and dihexylsexithiophene (DH6T). The S 2p X-ray photoelectron spectroscopy peaks are found to have complex line shapes corresponding to S atoms with different core level binding energies (CLBE). Density functional theory calculations of adsorption energies and CLBEs were performed for various adsorption configurations of thiophene on a perfect Au(111) plane and for comparison, calculations were also performed for bithiophene, terthiophene, alkenethiol, alkenethiol chain, and a broken thiophene related metallocycle, incorporating an Au adatom and an S atom. On the basis of these results we relate the different contributions to the S 2p peak to intact molecules on different adsorption sites and broken molecules. Calculations in particular show that the CLBEs for intact thiophene (1T) can be the same as for the alkene and alkanethiol cases as opposed to usual assumptions in the literature. The existence of intact thiophenes is confirmed by the presence of clear π resonance peaks in the near edge X-ray fine structure (NEXAFS) spectra. Spontaneous dissociation appears to a variable extent in different samples, and we tentatively relate this to the presence of a more or less large number of steps and defects sites. X-ray induced beam damage was investigated for 1T and 3T using an intense synchrotron beam of 260 eV photons, and showed changes in the S 2p spectra related to S–C bond scission.

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Section: Introductionsupporting

confidence: 63%

Section: Introductionmentioning

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Thiophene Derivatives on Gold and Molecular Dissociation Processes

et al. 2017

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“…The study of self-assembled monolayers (SAMs) has been an attractive field since SAMs allow tailoring of surface properties − such as adhesion, corrosion, and biocompatibility, and furthermore, these have been used in research on molecular electronic devices. − Historically work on SAMs involved much work on thiols ,,, with the S atom serving as linker to a substrate. Commonly investigated systems involve various thiols with alkane and phenyl groups ,,− and also thiophenes. − The interaction between the headgroup and substrate affects the characteristics of the SAMs such as orientation, structural configurations, and charge transfer properties and, to a large extent, determines the performance of SAMs. In recent years, therefore, interest in other headgroups as linkers, with possibly better characteristics for a given application, engendered research into molecules bearing heavier chalcogens − (Se, Te) as well as other atoms such as N and C. , Several investigations have thus been carried out on selenol SAMs and selenophene adsorption. − …”

Section: Introductionmentioning

confidence: 99%

Selenium, Benzeneselenol, and Selenophene Interaction with Cu(100)

et al. 2016

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A high-resolution synchrotron photoemission study of selenium, selenophene (Seph), and benzeneselenol (BSe) adsorption on a Cu(100) surface was performed, to investigate the film structure, chemical adsorption properties, and molecular orientation. Complementary measurements for selenophene adsorption on Au(111) were also performed. The investigation is based on determination of core level binding energies (CLBEs) by X-ray photoelectron spectroscopy (XPS) and near-edge adsorption fine structure (NEXAFS). Se chemisorption was studied as a complement to the work on molecules in order to obtain data on the CLBEs for the atomic case. Se adsorption was performed from a Na2Se solution and thereafter annealing in vacuum. Annealing leads to appearance of ordered structures in LEED. Se 3d CLBEs were determined for the different cases. Fits of Se 3d XPS spectra show existence of several components attributable to different adsorption configurations. Also coadsorption with S was studied, which leads to changes in adsorption configurations depending upon the coadsorption procedure: simultaneous or preadsorption of S. Annealing after simultaneous adsorption leads to S elimination, while it is retained after preadsorption suggesting a higher reactivity of Se. In the case of both BSe and selenophene, XPS spectra indicate that Se–C bond scission occurs, which leads to appearance of some atomic Se on the surface and coadsorption of molecules. This is accompanied by attenuation of characteristic aromatic ring peaks in NEXAFS. In the case of selenophene single Se–C bond scission leads to appearance of alkenechain selenol molecules bound with the Se atom to the surface. A similar situation is encountered for selenophene on Au(111). NEXAFS did not show dichroism possibly partly because of dissociation processes.

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