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3d-4d-4f Heterotrimetallic 3D Chiral Frameworks Based on Octahedral {Ni6Ag8S12Cl} or Trigonal Dipyramidal (Co2Ag3S6) Clusters: Synthesis, Crystal Structures, and Characterization

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Indexed by:期刊论文

Date of Publication:2013-02-01

Journal:CRYSTAL GROWTH & DESIGN

Included Journals:SCIE、EI、Scopus

Volume:13

Issue:2

Page Number:918-925

ISSN No.:1528-7483

Abstract:The self-assembly reactions of AgNO3, Ln(NO3)(3) (Ln = La, Eu, and Tb), D-penicillamine (D-pen, H2L), and NiCl2 (or CoCl2) lead to the formation of six new compounds: (H3O)(3)[LnNi(6)Ag(8)L(12)Cl(Ac)(H2O)(4)]-(H2O)(28) (Ln = La (1); Eu (2); and Tb (3)) and (H3O)(2)[LnCo(2)Ag(3)L(6)](H2O)(3) (Ln = La (4); Eu (5); and Tb (6)). Single crystal X-ray analyses show that 1, 2, and 3 are isomorphous and have a 3D anionic framework in which the nodes are octahedral {Ni6Ag8S12Cl} clusters, and Ln(3+) ions and the connectors are the CCHCOO chains of the D-pen ligands. Moreover, 4, 5, and 6 are also isomorphous, possessing a 3D anionic framework with trigonal dipyramidal {Co2Ag3S6} clusters, Ln(3+) as nodes, and the CCHCOO chains of the D-pen ligands as connectors. Topology analysis indicates that the two series of 3d-4d-4f heterotrimetallic frameworks have (3,3)-connected utg and (6,6)-connected pcu networks, respectively. The frameworks are rigid and stable. The porosity is retained after the guest molecules are removed and can take back guest molecules again. Solid-state UV-vis spectroscopy experiments show that compounds 1-6 are all medium gap semiconductors with band gaps of 1.82, 1.80, 1.83, 1.68, 1.71, and 1.72 eV, respectively.

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