Anions of fullerenes and small carbon clusters C-n(-) have been stored
in the storage ring ASTRID and observed served decays on a millisecon
d time scale are interpreted as electron emission from metastable exci
ted states. For the fullerenes, the fast decay is caused by thermionic
emission, quenched by radiative cooling. The observed decay times are
longest for the magic numbers n = 50,60, reflecting a reduction of th
e thermal radiation due to the electronic shell structure. This statis
tical interpretation is supported by experiments on thermionic emissio
n from C-60(-) molecules heated by a Nd:YAG laser pulse. For anions of
small carbon clusters (n = 2 - 9) there is a metastable component for
n = 2 and for odd n but no metastability on a millisecond time scale
for even n. The excited states are suggested to be quartet states deca
ying by Auger emission.