Correlating magnetic anisotropy with [Mo(CN)7]4− geometry of MnII–MoIII magnetic frameworks

Abstract

Four new three-dimensional (3-D) coordination frameworks based on the heptacyanomolybdate(III) anion were prepared and characterised by magnetic measurements: {[Mn^II(imH)₂]₂[Mn^II(H₂O)(imH)₃][Mn^II(imH)₄] [Mo^III(CN)₇]₂·6H₂O}_n (1) (imH = imidazole), {[Mn^II(H₂O)₂(imH)]₃[Mn^II(H₂O)(imH)₂][Mo^III(CN)₇]₂·5H₂O}_n (2), {[Mn^II(Htrz)(H₂O)₂][Mn^II(Htrz)_0.7(H₂O)_2.3][Mo^III(CN)₇]·5.6H₂O}_n (3) (Htrz = 1,2,4-triazole) and {[Mn^II(H₂O)₂]₃[Mn^II(H₂O)₄][Mo^III(CN)₇]₂·6H₂O·2urea}_n (4). All four compounds exhibit long-range ferrimagnetic ordering and exhibit an opening of their magnetic hysteresis loops at 1.8 K; 1 and 2 exhibit the highest coercive fields among all known [Mo^III(CN)₇]-based assemblies, 5000 and 4500 Oe respectively. The coercivity of 1–4 is correlated with the geometry of the heptacyanomolybdate(III) anion and the cyanide bridging pattern. A paramagnetic analogue of compound 1, {[Mn^II(imH)₂]₂[Mn^II(H₂O)(imH)₃][Mn^II(imH)₄][Re^III(CN)₇]₂·6H₂O}_n (1Re), where the heptacyanomolybdate(III) anion is substituted by the diamagnetic heptacyanorhenate(III) anion is also reported which constitutes the first example of a coordination framework based on [Re^III(CN)₇]⁴⁻.