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Hydrothermally Synthesis and Characterization of Lanthanide Coordination Polymers with (42.62.82)(43.63)2(46.67.82)(48.67) Topology {[Ln2(1,4-pda)3(H2O)]·2H2O}n (Ln = Pr, Nd, Dy)
Corresponding Author(s) : Mei-Li Zhang
Asian Journal of Chemistry,
Vol. 28 No. 1 (2016): Vol 28 Issue 1
Abstract
Three 3D lanthanide coordination polymers {[Ln2(1,4-pda)3(H2O)]·2H2O}n (1,4-pda = 1,4-phenylenediacetic acid, Ln = Pr for 1, Nd for 2 and Dy for 3) have been hydrothermally synthesized and characterized by elemental analysis, IR spectroscopy, thermogravimetric analyses and single-crystal X-ray diffraction techniques. The structure indicates that three complexes have similar structures and belong to monoclinic crystal system, P21/c space group. In which, trans-bis(μ2-h2:h1) and trans-bis(μ2-h1:h1) 1,4-pda2- anions link the Ln(III) center to generate a 2D network, furthermore, the dimensionality is extended to a (4,6)-connected 3D architecture with a Schläfli symbol of (42.62.82)(43.63)2(46.67.82)(48.67) through same coordination mode 1,4-pda2- anions linking. In additional, photoluminescence properties of three complexes have also been studied. (CCDC 1009612 for 1, 1009613 for 2 and 1009614 for 3).
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References
O.M. Yaghi, M. O’Keeffe, N.W. Ockwig, H.K. Chae, M. Eddaoudi and J. Kim, Nature, 423, 705 (2003); doi:10.1038/nature01650.
M. O’Keeffe and O.M. Yaghi, Chem. Rev., 112, 675 (2012); doi:10.1021/cr200205j.
M.W. Zhang, M. Bosch, T. Gentle III and H.C. Zhou, CrystEngComm, 16, 4069 (2014); doi:10.1039/c4ce00321g.
Y. Zhao, D.S. Deng, L.F. Ma, B.M. Ji and L.Y. Wang, Chem. Commun., 49, 10299 (2013); doi:10.1039/c3cc45310c.
X.M. Wang, W.P. Wu, Y.H. Jiang, G.P. Yang and Z.P. Xi, Wuji Huaxue Xuebao, 30, 192 (2014).
Y. Cui, Y. Yue, G. Qian and P. Chen, Chem. Rev., 112, 1126 (2012); doi:10.1021/cr200101d.
A. Morozan and F. Jaouen, Energy Environ. Sci., 5, 9269 (2012); doi:10.1039/c2ee22989g.
Y.P. Cai, X.X. Zhou, Z.Y. Zhou, S.Z. Zhu, P.K. Thallapally and J. Liu, Inorg. Chem., 48, 6341 (2009); doi:10.1021/ic9007125.
O.Z. Yeşilel, G. Günay, C. Darcan, M.S. Soylu, S. Keskin and S.W. Ng, CrystEngComm, 14, 2817 (2012); doi:10.1039/c2ce06603c.
L.J. Chen, X. Chen, Q.B. Hou, M.X. Yang and S. Lin, Wuji Huaxue Xuebao, 30, 786 (2014).
H.Y. Deng, J.R. He, M. Pan, L. Li and C.Y. Su, CrystEngComm, 11, 909 (2009); doi:10.1039/b819608g.
Y.X. Ren, M.L. Zhang, D.S. Li, F. Fu, J.J. Wang, M. Du, X.Y. Hou and Y.P. Wu, Inorg. Chem. Commun., 14, 231 (2011); doi:10.1016/j.inoche.2010.10.030.
C.Y. Wang, X.S. Wu and X. Li, Wuji Huaxue Xuebao, 24, 781 (2008).
J. Wang and X.Q. Zhao, Chinese J. Struct. Chem., 33, 7 (2014).
J. Wang, Y.H. Zhang and M.L. Tong, Chem. Commun., 3166 (2006); doi:10.1039/b604584g.
L. Pan, K.M. Adams, H.E. Hernandez, X. Wang, C. Zheng, Y. Hattori and K. Kaneko, J. Am. Chem. Soc., 125, 3062 (2003); doi:10.1021/ja028996w.
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G.M. Sheldrick, SADABS, A Program for Empirical Absorption Correction of Area Detector Data, University of Göttingen, Germany (1997).
G.M. Sheldrick, SHELXS-97, Program for the Solution of Crystal Structures, University of Göttingen, Germany (1997).
G.M. Sheldrick, SHELXL-97, Program for the Refinement of Crystal Structures, University of Göttingen, Germany (1997).