Mononuclear and Binuclear Metal(II) Complexes of Ethane-1,2-Dithiolate. Preparation, Equilibrium and Redox Properties of [Ni(S₂C₂H₄)₂]^2- and [Ni₂(S₂C₂H₄)₃]^2-, and the Structures of Ni₂(S₂C₂H₄)₃]^2- and [Pd(S₂C₂H₄)₂]^2-

Abstract

The diamagnetic ethane-1,2-dithiolate complexes [Ni( edt )₂]₂- and [Ni2( edt )₃]^2- were isolated as Ph₄P⁺ salts from reaction systems with K₂( edt ) : NiCl₂ mol ratios of 10 : 1 and 2 : 1, respectively. (Ph₄P)₂[Ni₂( edt )₃] crystallizes in triclinic space group Pī with a 10.409(2)Ǻ, b 12.872(4)Ǻ, c 21.235(6)Ǻ, α 76.59(2)°, β 84.65(2)°, γ 70.12(2)°, and Z 2. The anion consists of a Ni( edt ) fragment bridged to [Ni( edt )₂]^2- through cis sulfur atoms of different chelate rings, resulting in a complex of idealized C_S symmetry. Each NiS₄ coordination unit shows small deviations from planarity. Their mean S₄ planes are inclined at a dihedral angle of 118.0° across the S-S vector of bridging sulfur atoms, which leads to a Ni-Ni separation of 2.914(1)Ǻ. Terminal Ni-S bond lengths average to 2.177(12)Ǻ. (Ph₄P)₂[Pd( edt )₂].4H₂O crystallizes in monoclinic space group C2/c with a 10.470(3)Ǻ, b 24.264(9)Ǻ, c 19.691(7)Ǻ, β 93.05(3)°, and Z 4. The PdS₄ unit of the anion deviates from planarity by a dihedral angle of 7.7° between chelated PdS₂ groups. The mean Pd-S distance is 2.318 Ǻ. In protic and aprotic solvents [Ni( edt )₂]^2- converts into the binuclear complex in the reaction 2[Ni( edt )₂]^2- → [Ni₂( edt )₃]^2- + edt^2-, which is first order in the mononuclear complex. Reactions are faster in protic solvents; in HCONMe₂ at 40°C k ≈ 4×10^-5 s^-1. In acetonitrile [Ni₂( edt )₃]^2- shows an irreversible oxidation at E_p,a -0.21 V v . s.c.e .; for [Ni( edt )₂]_2- under the same conditions E_p,a -0.61 V and E_1/2 for the 2-/1- couple is estimated as -0.68 V. These values demonstrate that potentials of classical anionic Ni^II tetrathiolate complexes are substantially reduced relative to those of non- thiolate species (excluding dithiolenes ), and are in the region of Ni^II /^III potentials in hydrogenases.