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Evaporation of covalent clusters: Unimolecular decay of energized size-selected carbon cluster ions (C+<i>n</i>, 5≤<i>n</i>≤100)

Peter RadiDepartment of Chemistry, University of California, Santa Barbara, California 93106Ming-Teh HsuDepartment of Chemistry, University of California, Santa Barbara, California 93106J. Brodbelt-LustigDepartment of Chemistry, University of California, Santa Barbara, California 93106Marina E. RincónDepartment of Chemistry, University of California, Santa Barbara, California 93106Michael T. BowersDepartment of Chemistry, University of California, Santa Barbara, California 93106
1990en
ABI

Аннотация

The unimolecular decay of energized size-selected carbon clusters (C+n, 5≤n≤100) is investigated. The clusters are produced in a laser-generated plasma on the surface of a graphite rod. Directly extracted cations that decay on a μs time scale are probed in a double-focusing, reverse-geometry mass spectrometer. The unimolecular decomposition rates are extracted from metastable fraction measurements. We observe a dramatic discontinuous increase in the decay rate constant as a function of cluster size around mass C+c0 (factor of 5 to 10). Additionally, low rate constants, relative to the neighbors, are found for C+50, C+60, and C+70. The results are rationalized by postulating a phase transition from small ‘‘rigid’’ clusters for n&amp;lt;30 to larger ‘‘molten’’ entities for n&amp;gt;30. In this model local deviations in rate constant reflect the thermodynamic stabilities of the clusters. A further consequence of this model is that ‘‘magic’’ numbers in the mass spectrum originate primarily from the intrinsic stability of the clusters with respect to evaporation and not from a kinetic growth mechanism.

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