期刊
CRYSTALS
卷 13, 期 10, 页码 -出版社
MDPI
DOI: 10.3390/cryst13101490
关键词
lead(II); metal-organic framework; pyrimidine-4,6-dicarboxylate; new topology; photoluminescence properties; time-dependent density-functional theory
In this study, a 3D MOF with a unique topology and greenish blue photoluminescence was synthesized using a solvent-free, oven-heated method.
In the present work, we report on a 3D MOF of {[Pb5(mu 3-OH)(mu 3-NO3)3(mu 6-pmdc)3]center dot H2O}n formula (pmdc = pyrimidine-4,6-dicarboxylate) synthesized by an oven-heated, solvent-free procedure. The large connectivity afforded by the three ligands in their coordination to lead(II) ions grows cubic building units characterized by a central Pb atom with an unusual coordination index of 12 and 6 pmdc ligands occupying the faces. These cubic units are linked to one another giving rise to a quite condensed structure that represents an unprecedented topology showing the (4 center dot 62)6(43)2(45 center dot 610)3(45 center dot 68 center dot 82)6(46 center dot 69)6(612 center dot 83) point symbol. The crystalline material has been characterized by routine physico-chemical techniques to confirm its purity, and its thermal behaviour has been also studied by thermogravimetric and thermodiffractometric analyses. The solid presents a greenish blue photoluminescent emission based on pmdc ligands, as revealed by time-dependent density-functional theory (TDDFT) calculations, which is substantially more intense than in the free H2pmdc ligand according to its improved quantum yield. The emissive capacity of the material is further analysed according to decreasing temperature of the polycrystalline sample, finding that sizeable, long-lasting phosphorescence is present.
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