Abstract
A system of CO32–-bridged polynuclear dysprosium complexes has been complemented with the emergence of a key component, namely, [Dy6(μ4-CO3)3(μ3-OH2)(spch)6(MeOH)6(H2O)3]·4MeOH·3H2O (3), and thus four dysprosium(III) clusters (1–4) spontaneously fixing one, two, three, and four atmospheric CO2 molecules, respectively, have been successfully assembled. Compound 1 is a Dy6 single-molecular magnet (SMM) (1) based on Dy3 triangles, with one CO32– group being derived from atmospheric CO2. The incorporation of an ortho-methoxy substituent into the ligand enables access to a double-CO32– bridged Dy6 SMM (2), where two CO32– groups occupy the two bases of the triangular prism. The trapping of three CO2 molecules of the atmosphere results in the formation of compound 3, where the three CO32– groups reside on the lateral faces of a triangular prismoid. Finally, a Dy8 SMM (4) with four CO32– bridges on the four lateral faces of the square prismoid can be isolated by converting four CO2 molecules. The magnetic invest...
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