Dioxygen Splitting by a Tantalum(V) Complex Ligated by a Rigid, Redox Non‐Innocent Pincer Ligand**
Jack Underhill, Eric S. Yang, Till Schmidt‐Räntsch, William K. Myers, José M. Goicoechea, Josh Abbenseth
Abstract
Abstract The reaction of TaMe 3 Cl 2 with the rigid acridane‐derived trisamine H 3 NNN yields the tantalum(V) complex [TaCl 2 (NNN cat )]. Subsequent reaction with dioxygen results in the full four‐electron reduction of O 2 yielding the oxido‐bridged bimetallic complex [{TaCl 2 (NNN sq )} 2 O]. This dinuclear complex features an open‐shell ground state due to partial ligand oxidation and was comprehensively characterized by single crystal X‐ray diffraction, LIFDI mass spectrometry, NMR, EPR, IR and UV/VIS/NIR spectroscopy. The mechanism of O 2 activation was investigated by DFT calculations revealing initial binding of O 2 to the tantalum(V) center followed by complete O 2 scission to produce a terminal oxido‐complex.