"Magic number" carbon clusters: Ionization potentials and selective reactivity

Abstract

The ionization potentials (IPs) of several large carbon clusters C n (n≥48), including the enhanced abundance ("magic number") clusters C50, C60, and C70, have been determined by Fourier transform ion cyclotron resonance (FTICR) mass spectrometric charge transfer bracketing experiments. The IPs of C50, C60, and C70 were bracketed by the same two charge transfer compounds, leading to a common value of 7.61 ±0.11 eV. The IPs of even numbered clusters adjacent to these magic number clusters were found to be lower by as much as 0.5 eV and all clusters between C50 and C 200 were determined to have IPs greater than 6.20 eV. The reaction rates of C60+ and C70+ with metallocenes were anomalously slow in comparison to the other large carbon cluster ions. IP and reactivity results suggest that C50, C 60, and C70 may indeed have different or more stable structures than neighboring clusters, which supports the hypothesis of closed-shell, spherical species. The implications of these results for the mechanism of Cn+ formation by direct laser vaporization are also discussed. © 1991 American Institute of Physics.