A Complete Triad of Zero‐Valent 17‐Electron Monoradicals of Group 7 Elements Stabilized by <i>m</i>‐Terphenyl Isocyanides
Federico Salsi, Shuai Wang, Christian Teutloff, Marvin Busse, Michael L. Neville, Adelheid Hagenbach, Robert Bittl, Joshua S. Figueroa, Ulrich Abram
Abstract
Abstract The first consistent series of mononuclear 17‐electron complexes of three Group 7 elements has been isolated in crystalline form and studied by X‐ray diffraction and spectroscopic methods. The paramagnetic compounds have a composition of [M 0 (CO)(CN p ‐F‐Ar DArF2 ) 4 ] (M=Mn, Tc, Re; Ar DArF2 =2,6‐(3,5‐(CF 3 ) 2 C 6 H 3 ) 2 C 6 H 2 F) and are stabilized by four sterically encumbering isocyanides, which prevent the metalloradicals from dimerization. They have a square pyramidal structure with the carbonyl ligands as apexes. The frozen‐solution EPR spectra of the rhenium and technetium compounds are clearly anisotropic with large 99 Tc and 185,187 Re hyperfine interactions for one component. High‐field EPR (Q band and W band) has been applied for the elucidation of the EPR parameters of the manganese(0) complex.