Charging up the cold: Formation of doubly- and triply-charged fullerene dimers in superfluid helium nanodroplets
Abstract
Sequential ionization of fullerene cluster ions (C60)n+ within multiply-charged helium nanodroplets leads to the intriguing phenomenon of forming and stabilizing doubly- and triply-charged fullerene oligomers. Surprisingly, we have detected (C60)22+ and (C60)23+, indicating that dimers, rather than the previously established pentamers and dodecamers, are the smallest fullerene cluster sizes capable of stabilizing two and even three charges. This remarkable resilience against Coulomb explosion is achieved through efficient cooling within the superfluid environment of helium nanodroplets, and a sequential ionization scheme that populates covalently bound or physisorbed fullerene dimers. Calculations support the stability of four differently bonded (C60)22+ and (C60)23+ isomers and predict a low Coulomb barrier (<0.4 eV) preventing even dissociation of cold van der Waals complexes.
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