IR, Raman, and UV/Vis Spectra of Corannulene for Use in Possible Interstellar Identification

Rouillé, Gaël; Jäger, Cornelia; Steglich, Mathias; Huisken, F.; Henning, Thomas; Theumer, Gabriele; Бауер, И.; Knölker, Hans‐Joachim

doi:10.1002/cphc.200800387

Cited by 35 publications

(48 citation statements)

References 47 publications

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“…The IR data confirmed the involvement of both partners in coordination showing absorption bands of [Hg 3 ] in the 1000e1600 cm À1 region and relatively intense out-of-plane CeH deformation bands of hydrocarbons, which are generally observed at 700e900 cm À1 [22,26]. The lack of hydrogens in [Hg 3 ] also permitted the detection of low to medium intense CeH stretches of polyaromatic ligands.…”

Section: Resultssupporting

confidence: 71%

Molecular curvature tradeoffs: Bending a planar trimercury unit over bowl-shaped polyaromatic hydrocarbons

Filatov

Greene

Jackson

et al. 2011

Journal of Organometallic Chemistry

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Section: Resultssupporting

confidence: 71%

Molecular curvature tradeoffs: Bending a planar trimercury unit over bowl-shaped polyaromatic hydrocarbons

Filatov

Greene

Jackson

et al. 2011

Journal of Organometallic Chemistry

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“…The performance of the chosen method was checked by comparing the calculated and experimental IR spectra of corannulene. In the experimental IR absorption spectrum of corannulene there is three dominant bands at 547.3, 659.8 and 837.2 cm À1 [37]. Using of scale factor equal to 0.9679 for B3LYP/6-311G(d,p) level of theory leads to calculated bands at 542.05, 651.98 and 827.15 cm À1 that is very close to experimental values and justifies this method for calculations.…”

Section: Theoretical Methodssupporting

confidence: 61%

Theoretical study of the corannulene ozonolysis and evaluation of the various reaction paths

Reisi‐Vanani

Shahrokh

Kokhdan

2015

Computational and Theoretical Chemistry

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“…Good agreement was found between this FT-IR spectrum and a previously recorded spectrum of neutral corannulene. 30 Simulated IR spectra are generated using BP86 and B3LYP methods. Figure 2 compares the experimental spectra of the neutral and protonated corannulene with the B3LYP calculated spectrum, where the frequencies have been scaled by 0.9679.…”

Section: B Ir Spectramentioning

confidence: 99%

Infrared spectroscopy of ionized corannulene in the gas phase

Galué

Rice

Steill

2011

The Journal of Chemical Physics

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The gas-phase infrared spectra of radical cationic and protonated corannulene were recorded by infrared multiple-photon dissociation (IRMPD) spectroscopy using the IR free electron laser for infrared experiments. Electrospray ionization was used to generate protonated corannulene and an IRMPD spectrum was recorded in a Fourier-transform ion cyclotron resonance mass spectrometer monitoring H-loss as a function of IR frequency. The radical cation was produced by 193-nm UV photoionization of the vapor of corannulene in a 3D quadrupole trap and IR irradiation produces H, H 2 , and C 2 H x losses. Summing the spectral response of the three fragmentation channels yields the IRMPD spectrum of the radical cation. The spectra were analyzed with the aid of quantum-chemical calculations carried out at various levels of theory. The good agreement of theoretical and experimental spectra for protonated corannulene indicates that protonation occurs on one of the peripheral C-atoms, forming an sp 3 hybridized carbon. The spectrum of the radical cation was examined taking into account distortions of the C 5v geometry induced by the Jahn-Teller effect as a consequence of the degenerate 2 E 1 ground electronic state. As indicated by the calculations, the five equivalent C s minima are separated by marginal barriers, giving rise to a dynamically distorted system. Although in general the character of the various computed vibrational bands appears to be in order, only a qualitative match to the experimental spectrum is found. Along with a general redshift of the calculated frequencies, the IR intensities of modes in the 1000-1250 cm −1 region show the largest discrepancy with the harmonic predictions. In addition to CH "in-plane" bending vibrations, these modes also exhibit substantial deformation of the pentagonal inner ring, which may relate directly to the vibronic interaction in the radical cation.

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IR, Raman, and UV/Vis Spectra of Corannulene for Use in Possible Interstellar Identification

Cited by 35 publications

References 47 publications

Molecular curvature tradeoffs: Bending a planar trimercury unit over bowl-shaped polyaromatic hydrocarbons

Molecular curvature tradeoffs: Bending a planar trimercury unit over bowl-shaped polyaromatic hydrocarbons

Theoretical study of the corannulene ozonolysis and evaluation of the various reaction paths

Infrared spectroscopy of ionized corannulene in the gas phase

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