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Nanoparticle-Mediated Intervalence Transfer

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journal contribution
posted on 2008-09-10, 00:00 authored by Wei Chen, Shaowei Chen, Feizhi Ding, Haobin Wang, Lauren E. Brown, Joseph P. Konopelski
Nanoparticle-mediated intervalence transfer was reported with ferrocene moieties that were attached onto the ruthenium nanoparticle surface by ruthenium−carbene π bonds. The resulting particles exhibited two pairs of voltammetric waves with a potential spacing of about 200 mV and a rather intense absorption peak in the near-infrared range (∼1930 nm) at mixed valence. Both features suggested Class II characteristics of the intraparticle intervalence transfer that mainly arose from through-bond interactions between the metal centers. Quantum calculations based on density functional theory showed that the nanoparticle core electrons served as conducting band states for the effective charge delocalization between particle-bound ferrocene moieties.

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