Design of transition metal complexes containing a P-E radical motif.

Recently, we have synthesized phosphane W(CO) 5 complexes containing a P -O-TEMP ligand motif as bench-stable precursors of thermally accessible phosphanoxyl complex radicals possessing a ligand with a P-O˙ group. In this work, extensive dispersion-corrected DFT calculations are used to explore both W(CO) 5 and Fe(CO) 4 phosphane complexes containing the P -E-TEMP ligands (E = O, S, NMe, and PMe) in order to reach thermally accessible radicals with a P-E˙ motif. Moreover, a more general single-electron transfer (SET) oxidation approach to synthesize such P-E˙ radicals via anionic precursors is disclosed. Furthermore, the tendencies for self-trapping and prototropic reactions of such radical complexes have been studied for the first time. Electronic structures and potential conversions of such P-E˙ radicals are discussed, thus paving the way to a broad range of transition metal radical complexes, including potential thermal radical initiators.