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The fluorescence spectrum of C60 in Ne and Ar matrices is revisited in the light of improved calculations of vibronically induced intensities for the transitions between S0 and the lowest three singlet excited states. The Jahn–Teller and Franck–Condon vibronic activities for the three transitions are also evaluated and combined with the computed Herzberg–Teller intensities to simulate the fluorescence spectra. The agreement between experimental and simulated spectra is very satisfactory and provides an assignment for almost every observed band. The excitation spectrum of C60 in Ne and Ar matrices in the 640–500 nm region is also presented. It is almost a mirror image to the fluorescence spectrum of C60 in Ar matrices and nearly all bands can be attributed by analogy with the fluorescence spectrum. However, it appears that some mode frequencies increase while others decrease as compared to the fluorescence spectrum. In the high-frequency region evidence for a number of bands whose intensity has no counterpart in the fluorescence spectrum shows that they correspond to ag(2) overtones of bands appearing at lower frequency. Finally a band is found which is attributed to Herzberg–Teller modes of a higher electronic state of T2u symmetry. Its electronic origin is estimated to lie at ∼16 700 cm−1.
The synthesis of a novel bithiophene with a pendant fullerene substituent and its electrochemical polymerisation are reported; light induced ESR measurements on the electrodeposited films reveal a photoinduced electron transfer from the donor cable (polythiophene) to the pendant acceptor cable (fullerene moieties).
We have prepared a novel bithiophene carrying a fulleropyrrolidine substituent. Its electrochemical polymerization affords an electron donor-acceptor material that has been studied by means of electrochemical and spectroscopic techniques. The results from photoinduced absorption (PIA) and light-induced electron spin resonance (LESR) experiments demonstrate a photoinduced electron transfer from the polythiophene backbone to the tethered acceptor moieties.
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