On the Way to a Trisanionic {Cu3 O2 } Core for Oxidase Catalysis: Evidence of an Asymmetric Trinuclear Precursor Stabilized by Perfluoropinacolate Ligands.

CuI complexes of the form K[(R3 P)Cu(pinF )], in which (pinF )2- is the bidentate, oxygen-donating ligand perfluoropinacolate, were synthesized and characterized. Low-temperature oxygenation of the K[(R3 P)Cu(pinF )(PR3 )] species resulted in a trisanionic bis(µ3 -oxo) trinuclear copper(II,II,III) core characterized by UV/Vis spectroscopy (λmax [nm] = 330, 535, 630), cryospray-ionization mass spectrometry, and X-band electron paramagnetic resonance spectroscopy (derivative resonance at 3300 G, Δms =2 at 1500 G). The kinetic behavior of the trimeric {Cu3 O2 } species was quantified by stopped-flow spectroscopy and the associated electronic structures were investigated by DFT calculations. An asymmetric {Cu3 O2 } species, As TpinF , which bears a structure similar to multicopper oxidases, forms prior to full formation of the symmetric trinuclear core, Sy TpinF . The trimer catalytically oxidizes para-hydroquinone to benzoquinone (a form of oxidase chemistry).