Rare Oxidation-State Combinations and Unusual Structural Motifs in Hexanuclear Mn Complexes Using 2-Pyridyloximate Ligands

The use of phenyl-2-pyridyl ketone oxime and di-2-pyridyl ketone oxime in Mn chemistry has led to hexanuclear clusters with unprecedented (MnII4MnIIIMnIV) or extremely rare (MnIIMnIII5 and MnII3MnIII3) metal oxidation-state combinations and uncommon structural motifs

Rare Oxidation-State Combinations and Unusual Structural Motifs in Hexanuclear Mn Complexes Using 2-Pyridyloximate Ligands

The use of phenyl-2-pyridyl ketone oxime and di-2-pyridyl ketone oxime in Mn chemistry has led to hexanuclear clusters with unprecedented (MnII4MnIIIMnIV) or extremely rare (MnIIMnIII5 and MnII3MnIII3) metal oxidation-state combinations and uncommon structural motifs

Rare Oxidation-State Combinations and Unusual Structural Motifs in Hexanuclear Mn Complexes Using 2-Pyridyloximate Ligands

The use of phenyl-2-pyridyl ketone oxime and di-2-pyridyl ketone oxime in Mn chemistry has led to hexanuclear clusters with unprecedented (MnII4MnIIIMnIV) or extremely rare (MnIIMnIII5 and MnII3MnIII3) metal oxidation-state combinations and uncommon structural motifs

Rare Oxidation-State Combinations and Unusual Structural Motifs in Hexanuclear Mn Complexes Using 2-Pyridyloximate Ligands

The use of phenyl-2-pyridyl ketone oxime and di-2-pyridyl ketone oxime in Mn chemistry has led to hexanuclear clusters with unprecedented (MnII4MnIIIMnIV) or extremely rare (MnIIMnIII5 and MnII3MnIII3) metal oxidation-state combinations and uncommon structural motifs