Absorption and fluorescence spectra of C60 fullerene concentrated solutions in hexane and polystyrene at 77–300 K

Pavlovich, V. S.; Shpilevsky, E. M.

doi:10.1007/s10812-010-9336-2

Cited by 20 publications

(16 citation statements)

References 26 publications

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“…59 This is because this formalism, 46 although it does depend on integrals over occupied and unoccupied Kohn-Sham orbitals of the sort ⟨ | ⟩, ⟨ | ⟩, 46 does not depend on them in the same extremely sensitive way as TD-DFT or the dipole approximation in which the dependence (and therefore any errors) is amplified due to the kernel in the overlap integral. The spectrum computed with B3LYP is comparable with that computed with TD-DFT, which appears to be quantitatively accurate 17,23 for both the onset of absorption (from about 3 eV) and magnitude of the extinction coefficient of the first peak around 4 eV (on the order of 20,000 L mol -1 cm -1 ).…”

Section: Visible Absorption Computed From the Frequency-dependent Diesupporting

confidence: 57%

“…1 of Ref. 23 The aggregation effect on the spectrum computed with B3LYP, where the spectrum of a single molecule is in semi-quantitative agreement with the experiment, 23 is relatively reasonable but appears exaggerated vs experiment, while that computed with PBE is unreasonable. 56 This is likely a method failure.…”

Section: Td-dftb Vs Td-dft For Single Molecule Absorption Spectrummentioning

confidence: 71%

“…Specifically, by comparing the experimental spectrum of C60 in Ref. 23 measured in a non-polar solvent, which can serve as an estimate of single-molecule absorption, to that of Ref. 56 , which was measured in thin film, one observes that aggregation is expected to cause a mild redshift and an appearance of a shoulder (compare FIG.…”

Section: Td-dftb Vs Td-dft For Single Molecule Absorption Spectrummentioning

confidence: 99%

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Influence of the aggregate state on band structure and optical properties of C60 computed with different methods

Pal

Arabnejad

Yamashita

et al. 2018

The Journal of Chemical Physics

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C60 and C60 based molecules are efficient acceptors and electron transport layers for planar perovskite solar cells. While properties of these molecules are well studied by ab initio methods, those of solid C60, specifically its optical absorption properties, are not. We present a combined density functional theory-Density Functional Tight Binding (DFTB) study of the effect of solid state packing on the band structure and optical absorption of C60. The valence and conduction band edge energies of solid C60 differ on the order of 0.1 eV from single molecule frontier orbital energies. We show that calculations of optical properties using linear response time dependent-DFT(B) or the imaginary part of the dielectric constant (dipole approximation) can result in unrealistically large redshifts in the presence of intermolecular interactions compared to available experimental data. We show that optical spectra computed from the frequency-dependent real polarizability can better reproduce the effect of C60 aggregation on optical absorption, specifically with a generalized gradient approximation functional, and may be more suited to study effects of molecular aggregation.

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Section: Visible Absorption Computed From the Frequency-dependent Diesupporting

confidence: 57%

Section: Td-dftb Vs Td-dft For Single Molecule Absorption Spectrummentioning

confidence: 71%

Section: Td-dftb Vs Td-dft For Single Molecule Absorption Spectrummentioning

confidence: 99%

See 1 more Smart Citation

Influence of the aggregate state on band structure and optical properties of C60 computed with different methods

Pal

Arabnejad

Yamashita

et al. 2018

The Journal of Chemical Physics

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“…Formation of the lowest-lying excitons such as S 1 and T 1 would be another pathway of hot electron relaxation that may induce the photoemission by process 2a described above. The central energy of S 1 (0-0 transition) is known to be 2.0 eV, whereas the absorption band of S 1 distributes from 430 to 670 nm in wavelength 58 . Taking into account the energy of the HOMO ( E F −2.2 eV), the higher energy component of S 1 is expected to appear around the low energy cut-off ( E F + 0−0.7 eV in the intermediate energy ( E final − hν )) and also to exhibit relaxation dynamics on the ps-ns time scale.…”

Section: Resultsmentioning

confidence: 99%

Direct observation of photocarrier electron dynamics in C60 films on graphite by time-resolved two-photon photoemission

Shibuta

Yamamoto

Ohta

et al. 2016

Sci Rep

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Time-resolved two-photon photoemission (TR-2PPE) spectroscopy is employed to probe the electronic states of a C60 fullerene film formed on highly oriented pyrolytic graphite (HOPG), acting as a model two-dimensional (2D) material for multi-layered graphene. Owing to the in-plane sp2-hybridized nature of the HOPG, the TR-2PPE spectra reveal the energetics and dynamics of photocarriers in the C60 film: after hot excitons are nascently formed in C60 via intramolecular excitation by a pump photon, they dissociate into photocarriers of free electrons and the corresponding holes, and the electrons are subsequently detected by a probe photon as photoelectrons. The decay rate of photocarriers from the C60 film into the HOPG is evaluated to be 1.31 × 1012 s−1, suggesting a weak van der Waals interaction at the interface, where the photocarriers tentatively occupy the lowest unoccupied molecular orbital (LUMO) of C60. The photocarrier electron dynamics following the hot exciton dissociation in the organic thin films has not been realized for any metallic substrates exhibiting strong interactions with the overlayer. Furthermore, the thickness dependence of the electron lifetime in the LUMO reveals that the electron hopping rate in C60 layers is 3.3 ± 1.2 × 1013 s−1.

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“…Comparison of the present calculated spectrum on isolated C60 with experimental data is difficult since the experimental measurements have been performed either in hot gas phase [53] or embedded in a condensed medium [52,[53][54][55][56] [56]. A good discussion about the comparison experiment-theory can be found in Ref [52].…”

Section: Absorption Spectra Of C60 and C60 -mentioning

confidence: 96%

Absorption spectra of alkali-C₆₀nanoclusters

Rabilloud

2014

Phys. Chem. Chem. Phys.

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We investigate the absorption spectra of alkali-doped C60 nanoclusters, namely C60Nan, C60Kn, and C60Lin, with n = 1, 2, 6, 12, in the framework of the time-dependent density-functional theory (TDDFT). We study the dependence of the absorption spectra on the nature of the alkali. We show that in few cases the absorption spectra depend on the arrangement of the alkali atoms over the fullerene, though sometimes the absorption spectra do not allow us to distinguish between different configurations. When only one or two alkali atoms are adsorbed on the fullerene, the optical response of alkali-doped C60 is similar to that of the anion C60(-) with a strong response in the UV domain. In contrast, for higher concentration of alkali, a strong optical response is predicted in the visible range, particularly when metal-metal bonds are formed. The weak optical response of the I(h)-symmetry C60Li12 is proposed to be used as a signature of its structure.

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Absorption and fluorescence spectra of C60 fullerene concentrated solutions in hexane and polystyrene at 77–300 K

Cited by 20 publications

References 26 publications

Influence of the aggregate state on band structure and optical properties of C60 computed with different methods

Influence of the aggregate state on band structure and optical properties of C60 computed with different methods

Direct observation of photocarrier electron dynamics in C60 films on graphite by time-resolved two-photon photoemission

Absorption spectra of alkali-C₆₀nanoclusters

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Absorption and fluorescence spectra of C60 fullerene concentrated solutions in hexane and polystyrene at 77–300 K

Cited by 20 publications

References 26 publications

Influence of the aggregate state on band structure and optical properties of C60 computed with different methods

Influence of the aggregate state on band structure and optical properties of C60 computed with different methods

Direct observation of photocarrier electron dynamics in C60 films on graphite by time-resolved two-photon photoemission

Absorption spectra of alkali-C60nanoclusters

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Absorption spectra of alkali-C₆₀nanoclusters