4.7 Article

Electronic spectra of positively charged carbon clusters-C2n+ (n=6-14)

期刊

JOURNAL OF CHEMICAL PHYSICS
卷 155, 期 21, 页码 -

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AIP Publishing
DOI: 10.1063/5.0070502

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资金

  1. Australian Research Council's Discovery Project [DP150101427, DP160100474]
  2. Swiss National Science Foundation [P2EZP2_178429]
  3. Australian Research Training Program scheme
  4. Swiss National Science Foundation (SNF) [P2EZP2_178429] Funding Source: Swiss National Science Foundation (SNF)

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Electronic spectra of C-2n(+) (n = 6-14) clusters reveal predominance of monocyclic structures and increasing prevalence of bicyclic structures with higher carbon atom numbers. Variations in band widths across clusters suggest differences in non-radiative decay rates, with some clusters exhibiting rapid decay while others show slower deactivation.
Electronic spectra are measured for mass-selected C-2n(+) (n = 6-14) clusters over the visible and near-infrared spectral range through resonance enhanced photodissociation of clusters tagged with N-2 molecules in a cryogenic ion trap. The carbon cluster cations are generated through laser ablation of a graphite disk and can be selected according to their collision cross section with He buffer gas and their mass prior to being trapped and spectroscopically probed. The data suggest that the C-2n(+) (n = 6-14) clusters have monocyclic structures with bicyclic structures becoming more prevalent for C-22(+) and larger clusters. The C-2n(+) electronic spectra are dominated by an origin transition that shifts linearly to a longer wavelength with the number of carbon atoms and associated progressions involving excitation of ring deformation vibrational modes. Bands for C-12(+), C-16(+), C-20(+), C-24(+), and C-28(+) are relatively broad, possibly due to rapid non-radiative decay from the excited state, whereas bands for C-14(+), C-18(+), C-22(+), and C-26(+) are narrower, consistent with slower non-radiative deactivation. Published under an exclusive license by AIP Publishing.

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