Debate over the electronic structure of CuIII complexes has intensified in recent years, focusing primarily on whether the Cu(CF3)4- moiety should be described as a classical Werner-type 3d8 CuIII complex or as a 3d10 CuI inverted ligand field framework. The copper periodate complex Cu(HIO6)25-, discovered in 1937, has long been regarded as a 3d8 CuIII species and sometimes used as a reference 3d8 CuIII complex in oxidation state assignments for Cu-containing metalloenzymes. Nevertheless, its detailed electronic structure remains unexplored. Herein, we revisit the oxidation state of Cu(HIO6)25- by means of X-ray photoelectron spectroscopy, X-ray absorption spectroscopy, and density functional theory calculations. The obtained results show that the oxidation state of the Cu center in Cu(HIO6)25- lies at the boundary between the classical Werner-type and inverted ligand field regimes. This study thus demonstrates that categorizing the oxidation state of CuIII complexes as either 3d8 or 3d10 configurations is often inadequate; instead, the existence of electronic states at the boundary between these two limiting cases should be recognized.
Takeyama et al. (Tue,) studied this question.