Peculiarities in the infrared emission of PAH-C60 adducts
Abstract
The coexistence of PAHs and the C60 fullerene in different astrophysical environments can give rise to the formation of new complex species denoted as PAH-C60 adducts, which may contribute to the infrared (IR) emission observed. These PAH-C60 adducts have been previously reported experimentally due to the high reactivity between PAHs and C60. From the astrophysical point of view, however, they have not been considered in detail yet. Here we have performed a combined experimental and theoretical study in order to characterize the IR spectra of PAH-C60 adducts, including multiple adducts. By using new advanced experimental techniques, we have been able to synthesize some specific PAH-C60 adduct isomers, and measured their IR spectra. These experimental data are used to correct their harmonic scaled spectra, as obtained from quantum-chemistry calculations performed at the DFT level under the B3LYP-GD3/6-31+G(d) approach. This way, we simulate the IR (3-25 μm) spectra of multiple PAH-C60 adducts, composed by a different number of PAH units: mostly one or two units. In addition, the chemical kinetics data available in the literature are used to tentatively estimate the possible order of magnitude of the abundances of these PAH-C60 adducts using the available observational data. Essentially, our results reveal a possible strong modification of the IR spectra when astronomically estimated abundances are considered. Several spectral peculiarities are observed, such as a broad 3.4-3.6 μm feature, and important modifications in the 6-10 and 12-16 μm spectral regions together with contributions to the C60 features at 7.0 and 18.9 μm. Interestingly, these PAH-C60 adducts lack aliphatic CH bonds, but they display IR features around 3.4 μm, challenging previous interpretations of this astronomical feature.
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