Inorganic Chemistry, Vol.46, No.13, 5155-5165, 2007
Systematic investigation of trigonal-bipyramidal cyanide-bridged clusters of the first-row transition metals
Reactions between [M'(III)(CN)(6)](3-) anions (M' = Co, Cr, or Fe) and mononuclear complexes of M-II ions (M = Cr, Mn, Co, Ni, or Zn) produce a family of pentanuclear clusters {[M(tmphen)(2)](3)[M'(CN)(6)](2)]}. The core of the clusters is formed by five metal ions that are bridged through six CN- linkers into a trigonal bipyramid, with M and M' ions occupying equatorial and axial positions of the bipyramid, respectively. Three of the CN- ligands from each M' center remain terminal and point toward the outside of the cluster, along the trigonal axes. Studies of magnetic coupling in the {[M(tmphen)(2)](3)[Cr(CN)(6)](2)]} family of clusters revealed a similarity between the observed magnetic exchange constants and the values estimated for the molecule-based magnets of the Prussian blue family. The type of the magnetic exchange varies across the series, changing from antiferromagnetic for M = Cr and Mn to ferromagnetic for M = Co and Ni. Complexes {[M(tmphen)(2)](3)[Co(CN)(6)](2)]}, which contain diamagnetic Co-III ions in the axial positions, serve as convenient model compounds for an accurate assessment of the magnetic parameters for the equatorial M ions in the absence of magnetic interactions. The {[Co(tmphen)(2)](3)[Cr(CN)(6)](2)]} cluster exhibits cyanide linkage isomerism, the relative amount of which depends on the synthetic conditions.