Abstract
Abstract Previously we reported on the catalytic properties of species based on the {Mo(NO)(Tp Me2 )O 2 } moiety in the cathodic reduction of chloroform. Here, we have performed cyclic voltammetry and spectroscopic studies of the tungsten bis -alkoxide [W(NO)(Tp Me2 )(OEt) 2 ], a novel chelate [W(NO)(Tp Me2 )O(CH 2 ) 4 O], and a mono -alkoxide [W(NO)(Tp Me2 )Cl(OEt)] [Tp Me2 = hydrotris(3,5-dimethylpyrazol-1-yl)borate]. All these complexes efficiently catalyse the cathodic reduction of chloroform which proceeds even at ca. −1.77 V versus Fc + /Fc in the presence of the chloro(ethoxy) complex. The chelate complex exhibits a quasi-reversible one-electron reduction at a potential 180 mV more anodic than its bis(ethoxy) counterpart. The UV–Vis spectrum of the former complex shows a red-shifted band (by 70 nm) in the visible region when compared with the latter.
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