Resonance Raman spectroscopy as a probe of the bis(μ-oxo)dicopper core

Patrick L. Holland, Chris Cramer, Elizabeth C. Wilkinson, Samiran Mahapatra, Kenton R. Rodgers, Shinobu Itoh, Masayasu Taki, Shunichi Fukuzumi, Larry Que, William B Tolman

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Abstract

Resonance Raman spectra of dicopper complexes [L2Cu2(μ-O)2]2+ contain a number of resonance-enhanced features between 500 and 900 cm-1, with L = R3TACN and various bidentate ligands (TACN = 1,4,7- triazacyclononane). Most importantly, there is a vibration near 600 cm-1 in all [L2Cu2(μ-O)2]2+ compounds that is polarized, shifts by 19-27 cm-1 upon 18O2 substitution, and gives a new peak with 16O118O substitution, identifying it as a totally symmetric Ag vibration of the bis(μ-oxo)dicopper(III) core. Changing the pendant groups on R3TACN causes shifts in the frequency of the Cu2(μ-O)2 vibration, but the direction of these shifts depends on the details of the organic fragment. A substantial shift to higher frequency is evident when bidentate ligands are used in place of TACN. Importantly, bidentate ligands with two different types of nitrogen donors show two independent core vibrations; these are assigned as breathing and pairwise modes through simple group theory considerations as well as by calculations using density functional theory. These calculations are extended to examine systematic trends with ligand variation as well as potential excited-state distortions of the core. Finally, the symmetry and energy of the Cu2(μ-O)2 vibrations are compared with resonance Raman data for other biologically relevant high-valent M2(μ-O)2 cores (M = Fe, Mn) to derive lessons for examining biological and model systems.

Original languageEnglish (US)
Pages (from-to)792-802
Number of pages11
JournalJournal of the American Chemical Society
Volume122
Issue number5
DOIs
StatePublished - Feb 9 2000

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