Recently we have predicted [Phys. Rev. Lett. 94, 175501 (2005)] that Ti-decorated carbon nanotubes can adsorb up to 8-wt. % hydrogen at ambient conditions. Here we show that a similar phenomenon occurs in light transition-metal decorated C-60. While Sc and Ti prefer the hexagon (H) sites with a binding energy of 2.1 eV, V and Cr prefer double-bond (D) sites with binding energies of 1.3 and 0.8 eV, respectively. Heavier metals such as Mn, Fe, and Co do not bond on C-60. Once the metals are adsorbed on C-60, each can bind up to four hydrogen molecules with an average binding energy of 0.3-0.5 eV/H-2. At high metal coverage, we show that a C-60 can accommodate six D-site and eight H-site metals, which can adsorb up to 56 H-2 molecules, corresponding to 7.5 wt. %.
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