Terminal oxo complexes of late transition metals are frequently proposed reactive intermediates. However, they are scarcely known beyond Group?8. Using mass spectrometry, we prepared and characterized two such complexes: [(N4Py)CoIII(O)]+ (1) and [(N4Py)CoIV(O)]2+ (2). Infrared photodissociation spectroscopy revealed that the Co?O bond in 1 is rather strong, in accordance with its lack of chemical reactivity. On the contrary, 2 has a very weak Co?O bond characterized by a stretching frequency of ?659?cm?1. Accordingly, 2 can abstract hydrogen atoms from non?activated secondary alkanes. Previously, this reactivity has only been observed in the gas phase for small, coordinatively unsaturated metal complexes. Multireference ab?initio calculations suggest that 2, formally a cobalt(IV)?oxo complex, is best described as cobalt(III)?oxyl. Our results provide important data on changes to metal?oxo bonding behind the oxo wall and show that cobalt?oxo complexes are promising targets for developing highly active C?H oxidation catalysts. It was published recently in Angewandte Chemie-International Edition.
E. Andris, R. Navrátil, J. Jašík, M. Srnec, M. Rodríguez, M. Costas, and J. Roithová
“M?O Bonding Beyond the Oxo Wall: Spectroscopy and Reactivity of Cobalt(III)-Oxyl and Cobalt(III)-Oxo Complexes”
Angew. Chem. Int. Ed. 2019, 58, 9619-9624 [abstract]