To advance the structural development and fully explore the application potential, it is highly desirable but challenging to elucidate the relationship between the structures and properties of Zn-Ln heterometallic species. Herein, three types of Zn-Ln heterometallic compounds (Ln = Gd, Tb) formulated as [ZnLnL(μ-O)(NO)]·8CHCN (), [ZnLnL(NO)(HO)]·3CHCN (), and [ZnLnL(OAc)]·CHCN (: for Ln = Gd, = 5; for Ln = Tb, = 4) were dictated by common inorganic anions, NO and OAc, with the aid of the multidentate ligand with propane as the central skeleton and 3-methoxysalicylamide and 3-methoxysalicylaldimine as terminal groups. features cubic cages with four {ZnL} tetrahedral subunits and four Ln centers positioned at the eight vertices alternately when NO was introduced into the reaction system exclusively. An attempt to replace NO in with OAc partially led to the formation of {ZnLnL} heterometallic wheels. Meanwhile, featuring double-hairpin-like {ZnLnL} hemicycles that are orthogonal to each other assisted by intermolecular hydrogen bonds was constructed when NO in was completely replaced by OAc. Their structural integrity in solution were ascertained by both emission and H NMR spectroscopy. Ascribed to the different Zn-containing antenna, possesses a relatively strong emission characteristic of Tb; has moderate Tb luminescence, yet an absence of Tb emission is found in . Such an emission difference could be mainly attributed to the antenna effect directed by distinct structural characteristics induced by anions. The anion-dictated self-assembly strategy presented herein not only offers a facile approach to regulate the coordination mode of to such an extent to obtain diverse structures of Zn-Ln heterometallic species but also provides an understanding of how common inorganic anions tune coordination-driven self-assemblies as well as the subsequent luminescence properties.
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- Complex 4 not only demonstrates notable magnetic behavior with a butterfly-shaped hysteresis loop, but also shows enhanced fluorescent emissions compared to complex 2, which has weaker emissions due to the presence of nickel ions.
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