Orientation and bonding of thiophene and 2,2′-bithiophene on Ag(111): a combined near edge extended X-ray absorption fine structure and Xα scattered-wave study

Väterlein, P.; Schmelzer, M.; Taborski, J.; Krause, Theresa; Viczian, F.; Bäßler, M.; Fink, R.; Umbach, E.; Würth, W.

doi:10.1016/s0039-6028(00)00292-2

Cited by 76 publications

(83 citation statements)

References 45 publications

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“…The presence of these two additional multilayer desorption states suggests formation of a rather complicated multilayer structure, likely involving tilted thiophene. These TDS results are in general agreement with studies [18][19][20][21][22][23] of thiophene desorption from a variety of surfaces which have concluded that multilayer thiophene desorbs at temperatures lower than approximately 200 K.…”

Section: Thiophene Adsorptionsupporting

confidence: 90%

Adsorption of thiophene and pyridine on W(110)

Whitten

2003

Surface Science

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Section: Thiophene Adsorptionsupporting

confidence: 90%

Adsorption of thiophene and pyridine on W(110)

Whitten

2003

Surface Science

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“…For thiophenes, the first transitions are associated to transitions into s* levels, while all higher energy features are associated with final states of p* character (including sulfur dlevels). [25][26][27] The expected lowest-lying S 2p 3/2 !LUMO is very weak for thiophenes due to the predominant p-character of the LUMO level. [25][26][27] Therefore, we predict for MTBT from the general selection rules that the first structure at 165.6 eV in the S 2p excitation spectrum of in Figure 3 (top) can be assigned to transitions from S 2p 3/2 into molecular levels with mainly s* character (a zoom into this region can be seen also in Figure 4 a).…”

Section: Wwwchemphyschemorgmentioning

confidence: 98%

“…In general, at lower photon energies, relatively sharp transitions into p* molecular levels are observed, whereas at higher energies, transitions occur into levels with mainly s* character. [24] Therefore, we assign, in analogy to thiophenes, [25][26][27] the structures at the lowest energies to transitions into the LUMO orbital and broad features above 290 eV in Figure 3 a to C 1s!s* transitions. In the range between 284 and 290 eV additional features apart from those of the thiophenes [25][26][27] are observed (in particular the most intense peak at 287.5 eV), which might be assigned to contributions from the benzothiadiazole part of the molecule.…”

Section: Wwwchemphyschemorgmentioning

confidence: 99%

Electronic Structure and Interface Properties of a Model Molecule for Organic Solar Cells

et al. 2010

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We study the electronic structure of 4,7-bis(5-methylthiophen-2-yl)benzo[c][1,2,5]thiadiazole (MTBT) and its interface properties with gold using X-ray photoemission spectroscopy (XPS), valence-band ultraviolet photoemission spectroscopy (UPS), X-ray absorption spectroscopy (XAS), as well as resonant photoemission (ResPES). MTBT can be regarded as a model molecule for PCPDTBT, a promising candidate for efficient bulk heterojunction solar cells. Almost no contribution of sulfur and only a weak contribution of nitrogen to the HOMO level is found. At the interface with gold, a strong chemical interaction between the sulfur of the benzothiadiazole and gold occurs, which may have consequences for interface properties in devices.

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“…The TP molecule has π-electrons, and the NEXAFS spectrum of the TP molecule in the gas phase and multilayer film shows a strong π* transition peak at 285.8 eV. 18,33,34 However, the spectrum of the TP SAMs shown in Figure 3b shows a much weaker peak at this energy. This means that the π-electron system of TP molecules is significantly modified on the Au(111) surface, indicating strong interaction between the π orbital and the Au surface.…”

Section: Stm Images Inmentioning

confidence: 99%

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

2009

Bulletin of the Korean Chemical Society

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Surface structure and molecular orientation of self-assembled monolayers (SAMs) formed by the spontaneous adsorption of tetrahydrothiophene (THT) and thiophene (TP) on Au(111) were investigated by means of scanning tunneling microscopy (STM) and carbon K-edge near edge X-ray absorption fine structure (NEXAFS) spectroscopy. STM imaging revealed that THT SAMs have a commensurate (3 × 2√3) structure containing structural defects in ordered domains, whereas TP SAMs are composed of randomly adsorbed domains and paired molecular row domains that can be described as an incommensurate packing structure. The NEXAFS spectroscopy study showed that the average tilt angle of the aliphatic THT ring and π-conjugated TP ring in the SAMs were calculated to be about 30 o and 40 o , respectively, from the surface normal. It was also observed that the π* transition peak in the NEXAFS spectrum of the TP SAMs is very weak, suggesting that a strong interaction between π-electrons and the Au surface arises during the self-assembly of TP molecules. In this study, we have clearly demonstrated that the surface structure and adsorption orientation of organic SAMs on Au(111) are strongly influenced by whether the cyclic ring is saturated or unsaturated.

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Orientation and bonding of thiophene and 2,2′-bithiophene on Ag(111): a combined near edge extended X-ray absorption fine structure and Xα scattered-wave study

Cited by 76 publications

References 45 publications

Adsorption of thiophene and pyridine on W(110)

Adsorption of thiophene and pyridine on W(110)

Electronic Structure and Interface Properties of a Model Molecule for Organic Solar Cells

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

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