Abstract

The reaction in water of cobalt(II), nickel(II) or manganese(II) chloride with 1,10-phenanthroline (phen) and sodium pyrophosphate (Na4P2O7) at low pH (∼2) afforded three isostructural pyrophosphate complexes of an unprecedented one-dimensional typology, namely, {[M(phen)(H2O)(H2P2O7)]·H2O}n with M=Co(1), Ni(2) and Mn(3). The di-hydrogen-pyrophosphate anion featured in these complexes adopts a rare bidentate/monodentate bridging mode leading to chain propagation. This unusual bridging pathway produces a metal–metal intra-chain separation of about 6.6–6.7Å for 1–3, values much larger than the metal–metal distance across the classic bis-bidentate PPi in the parent homodinuclear complexes {[Co(phen)2]2(μ-P2O7)}·6MeOH (1a), {[Ni(phen)2]2(H2O)(μ-P2O7)}·27H2O (2a) and {[Mn(phen)2]2(H2O)(μ-P2O7)}·13H2O (3a), corresponding to ca. 4.9, 5.0 and 4.7Å, respectively. Variable-temperature magnetic susceptibility measurements on polycrystalline samples of 1–3 revealed weak intrachain antiferromagnetic couplings [J=−0.93 (1), −1.88 (2) and −0.26cm−1 (3)], consistent with previous data on the dinuclear complexes 1a–3a.

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