Low Oxidation State Iron(0), Iron(I), and Ruthenium(0) Dinitrogen Complexes with a Very Bulky Neutral Phosphine Ligand

Abstract

The synthesis of a series of iron and ruthenium complexes with the ligand P²P₃^Cy, P­(CH₂CH₂PCy₂)₃ is described. The iron(0) and ruthenium(0) complexes Fe­(N₂)­(P²P₃^Cy) (<b>1</b>) and Ru­(N₂)­(P²P₃^Cy) (<b>2</b>) were synthesized by treatment of [FeCl­(P²P₃^Cy)]⁺ and [RuCl­(P²P₃^Cy)]⁺ with an excess of potassium graphite under a nitrogen atmosphere. The Fe­(I) and Ru­(I) species [Fe­(N₂)­(P²P₃^Cy)]⁺ (<b>3</b>) and RuCl­(P²P₃^Cy) (<b>4</b>) were synthesized by treatment of [FeCl­(P²P₃^Cy)]⁺ and [RuCl­(P²P₃^Cy)]⁺ with 1 equiv of potassium graphite under a nitrogen atmosphere. The cationic dinitrogen species [Fe­(N₂)­H­(P²P₃^Cy)]⁺ (<b>6</b>) and [Ru­(N₂)­H­(P²P₃^Cy)]⁺ (<b>7</b>) were formed by treatment of <b>1</b> and <b>3</b>, respectively, with 1 equiv of a weak organic acid. The iron­(II) complex Fe­(H)₂(P²P₃^Cy) (<b>5</b>) was also synthesized and characterized. Complexes [RuCl­(P²P₃^Cy)]­[BPh₄], <b>1</b>, <b>2</b>, <b>3­[BPh</b>_<b>4</b><b>]</b>, <b>4</b>, <b>5</b>, <b>6­[BF</b>_<b>4</b><b>]</b>, and <b>7­[BF</b>_<b>4</b><b>]</b> were characterized by X-ray crystallography. The Fe­(I) and Ru­(I) complexes <b>3</b> and <b>4</b> were characterized by electron paramagnetic resonance (EPR) spectroscopy, and the Fe­(I) complex has an EPR spectrum typical of a metal-centered radical