Electronic and vibronic excitations as well as fragmentation mechanisms in
high energy ion (H+, C+, Ar+) fullerene collisions are investigated within
a fully microscopic approach, called nonadiabatic quantum molecular dynamic
s. The total kinetic energy loss of the projectile depends dramatically on
ion mass, but, surprisingly, does not depend on the impact velocity for all
ions in a certain range. This is in striking contrast to the predictions o
f the "stopping power" concept of solids, but explains apparently contradic
ting experimental observations. Signatures for nonstatistical fragmentation
mechanisms are predicted.