Synthesis,structure and magnetic properties of 2-D and 3-D [cation]{M[Au(CN)2]3} (M = Ni, Co) coordination polymers

In order to study the templating effect of the cation and the resulting impact on the magnetic properties, reactions of M(II) salts with cation]Au(CN)₂] were conducted, yielding a series of coordination polymers of the form cation]{MAu(CN)₂]₃} (cation = ⁿBu₄N⁺, PPN⁺ (bis(triphenylphosphoranylidene)ammonium); M = Ni(II) and Co(II)). The structures of ⁿBu₄N{MAu(CN)₂]₃} and PPN{MAu(CN)₂]₃} (M = Ni and Co) contain two distinct 3-D anionic frameworks of {MAu(CN)₂]₃}^?, hence the framework was sensitive to the cation, but not to the identity of the metal center. In ⁿBu₄N{MAu(CN)₂]₃}, the metal centers are connected by Au(CN)₂] units to form six 2-D (4, 4) rectangular grids that are fused through the M centers to yield a complex three-dimensional framework which accommodates the ⁿBu₄N⁺ cations. In PPN{MAu(CN)₂]₃}, the framework adopts a simpler non-interpenetrated Prussian-blue-type pseudo-cubic array, with the PPN⁺ cations occupying each cavity; no reduction in dimensionality occurs despite the large cation size. In the presence of water, {Co(H₂O)₂Au(CN)₂]₂} · ⁿBu₄NAu(CN)₂] was obtained, a 2-D layered polymer that contains neutral sheets of {Co(H₂O)₂Au(CN)₂]₂} which are separated by ⁿBu₄NAu(CN)₂] layers; aurophilic interactions of 3.4250(13) Å and hydrogen-bonding connect the layers. The magnetic properties of all compounds were investigated by SQUID magnetometry. The Ni(II) polymers have similar magnetic behaviour, which are dominated by zero-field splitting with very weak antiferromagnetic interactions at low temperature (D ～ 2–3 cm^?1, zJ < 1 cm^?1). The magnetic behaviour of all of the Co(II) polymers were found to be very similar, and dominated by single-ion effects (i.e. a large first-order orbital contribution). No significant magnetic coupling is observed in any of these coordination polymers, suggesting that the Au(CN)₂] bridging unit behaves as a poor mediator of magnetic exchange in these high-dimensionality systems.