Chemical Insights from High-Resolution X-ray Photoelectron Spectroscopy and ab Initio Theory:  Propyne, Trifluoropropyne, and Ethynylsulfur Pentafluoride

Lj, Saethre; Berrah, N.; Jd, Bozek; Kj, Børve; Tx, Carroll; Kukk, E.; Gl, Gard; Winter, R.; Td, Thomas

doi:10.1021/ja016395j

Cited by 72 publications

(88 citation statements)

References 41 publications

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“…Three peaks are well resolved and, according to the resonance model shown in Scheme 1, one would expect C1 to have the lowest ionization energy, C3 the highest and the other three C atoms to constitute the central main peak of the spectrum. This is similar to the situation in propyne [44], where C1 is found to have the lowest ionization energy and C3 the highest.…”

Section: Analysis Of the Carbon 1s Photoelectron Spectrum Of 1-pentynesupporting

confidence: 81%

Carbon 1s photoelectron spectroscopy of 1-pentyne conformers

Holme

Sæthre

Børve

et al. 2009

Journal of Molecular Structure

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Section: Analysis Of the Carbon 1s Photoelectron Spectrum Of 1-pentynesupporting

confidence: 81%

Carbon 1s photoelectron spectroscopy of 1-pentyne conformers

Holme

Sæthre

Børve

et al. 2009

Journal of Molecular Structure

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“…The first set contains only hydrocarbon while the second contains molecules involving heteroatoms (O or N). The experimental data are taken form references [47] and [48]. When several experimental data are available, the two extreme values are given.…”

Section: Small Moleculesmentioning

confidence: 99%

“…The ionization energy is computed with various levels of theory (B3LYP/6-311ϩϩG** and PBE0/6-311ϩϩG**) and with various localization criteria (PM or BF at the B3LYP/6-311ϩϩG** level). The accuracy of the calculations is checked against experimental data [47,48]. Readily, one can see that the PBE0 functional performs a much better job that the B3LYP exchange-correlation functional.…”

Section: Core-ionized and Core-excited States Of Macromoleculesmentioning

confidence: 99%

Core‐ionized and core‐excited states of macromolecules

Loos

Assfeld

2007

Int J of Quantum Chemistry

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ABSTRACT:We report the calculation of core-ionized states of small organic compounds and macromolecular systems in the framework of a new method based on the local self-consistent field (LSCF). This new theoretical scheme avoids the variational collapse of the empty core orbital (CO) of the core-excited states and ensures the orthogonality between the ground state and the excited states. Compared to experimental data and other theoretical methods, accurate carbon 1s ionization energies using the Boys-Foster (BF) localization criterion for the determination of the CO and the PBE0/6-311ϩϩG**//B3LYP/ 6-311ϩϩG** level of theory was obtained to calculate both the ground and excited states. The macromolecular systems, a sequence of 15 alanine amino acids in both ␣-helix and ␤-sheet conformations, are computed using hybrid quantum mechanics/molecular mechanics (QM/MM) method within the LSCF/MM framework. The results show a weak impact of the MM surrounding in the alanine polypeptides cases compared with that of previous studies based on electrically charged residue, such as glutamate in the crambin protein.

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“…Conceptually an analog of a trifluoromethyl (CF 3 ) group, the pentafluorosulfanyl (SF 5 ) group, with five fluorine atoms arranged in a square pyramid about sulfur, may impart unique properties to molecules into which it has been substituted. The electronegativity of the SF 5 group has been proposed to be slightly higher than that of the CF 3 group, 3.62 in comparison to a value of 3.36 [9]. However the Hammett s p value for SF 5 was determined to be 0.68 in contrast to s p value for CF 3 of 0.54 [10].…”

Section: Introductionmentioning

confidence: 93%