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Citation: CHENG Yue, WANG Xiao-Fang, LV Bei, HU Huai-Ming. Syntheses, Structures and Properties for ZnII Coordination Polymers Based on a Functional 4'-(3-Pyridyl)-3,2': 6',3"-terpyridine Ligand[J]. Chinese Journal of Structural Chemistry, ;2016, 35(12): 1953-1959. doi: 10.14102/j.cnki.0254-5861.2011-1215 shu

Syntheses, Structures and Properties for ZnII Coordination Polymers Based on a Functional 4'-(3-Pyridyl)-3,2': 6',3"-terpyridine Ligand

  • College of Chemistry and Materials Science, Northwest University, Xi'an 710127, China

  • Corresponding author: HU Huai-Ming, chemhu1@nwu.edu.cn
  • Received Date: 24 March 2016
    Accepted Date: 6 June 2016

    Fund Project: the National Natural Science Foundation of China  21173164 and 21473133

Figures(5)

  • Two new ZnII coordination polymers, namely,[ZnL(o-bdc)]n (1) and [ZnL(m-bdc)]n·nH2O (2) (L=4'-(3-pyridyl)-3,2':6',3"-terpyridine, H2(o-bdc)=benzene-1,2-dicarboxylic acid, H2(m-bdc)=benzene-1,3-dicarboxylic acid), were synthesized by hydrothermal methods. The crystal structures have been determined by single-crystal X-ray diffraction. Compound 1 crystallizes in monoclinic C2/c space group, with a=28.016(2), b=11.3815(11), c=19.8071(17)Å, β=133.961(2)°, V=4546.2(7)Å3, Z=8, Mr=539.83, Dc=1.577 Mg/m3, μ=1.127 mm-1, F(000)=2208, the final R=0.0426 and wR=0.0986 for 2875 observed reflections with I>2σ(I) and displays a 1D coordination chain. While compound 2 crystallizes in monoclinic C2/c space group, with a=15.6003(14), b=11.9152(11), c=26.633(3)Å, β=94.320(2)°, V=4936.5(8)Å3, Z=4, Mr=1115.67, Dc=1.496 Mg/m3, μ=1.043 mm-1, F(000)=2272, the final R=0.0499 and wR=0.1342 for 2659 observed reflections with I>2σ(I) and shows a classical 3D cds topological network with point symbol of {65.8}. Furthermore, thermal stability and luminescent properties of 1 and 2 have also been investigated.
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    1. [1]

      Du M, Li C, Chen M, Ge Z, Wang X, Wang L, Liu C. Divergent kinetic and thermodynamic hydration of a porous Cu(II) coordination polymer with exclusive CO2 sorption selectivity[J]. J. Am. Chem. Soc., 2014,136:10906-10909. doi: 10.1021/ja506357n

    2. [2]

      Lu J. F, Min S. T, Ge H. G. Synthesis, crystal structures and properties of two-dimensional complexes constructed by dicarboxylate and bis(imidazole) co-ligands[J]. J. Chem. Res., 2014,11:726-730.  

    3. [3]

      Luo G. G, Wu D. L, Wu J. H, Xia J. X, Liu L, Dai J. C. Direct observation of conformational change of adipate dianions encapsulated in water clusters[J]. CrystEngComm., 2012,14:5377-5380. doi: 10.1039/c2ce25200g

    4. [4]

      Férey G, Serre C. Large breathing effects in three-dimensional porous hybrid matter: facts, analyses, rules and consequences[J]. Chem. Soc. Rev., 2009,38:1380-1399. doi: 10.1039/b804302g

    5. [5]

      Wang Z. H, Wang D. F, Zhang T, Huang R. B, Zheng L. S. Synthesis, characterization, crystal structures and thermal and photoluminescence studies of dimethylpyrazine-carboxylate mixed ligand silver(I) coordination polymers with various multinuclear silver units[J]. CrystEngComm., 2014,16:5028-5039. doi: 10.1039/C4CE00072B

    6. [6]

      Shinde D. B, Kandambeth S, Pachfule P, Kumar R. R, Banerjee R. Bifunctional covalent organic frameworks with two dimensional organocatalytic micropores[J]. Chem. Commun., 2015,51:310-313. doi: 10.1039/C4CC07104B

    7. [7]

      Li Y. W, Li D. C, Xu J, Hao H. G, Wang S. N, Dou J. M, Hu T. L, Bu X. H. Structural modulation in two CuII-based MOFs by synergistic assembly involving the mixed-ligand synthetic strategy and the solvent effect[J]. Dalton Trans., 2014,43:15708-15712. doi: 10.1039/C4DT02321H

    8. [8]

      Qiao J. Z, Zhan M. S, Hu T. P. Syntheses, crystal structures, photoluminescent/magnetic properties of four new coordination polymers based on 2,3?,4,5?-biphenyltetracarboxylic acid[J]. RSC Adv., 2014,4:62285-62294.  

    9. [9]

      Chang X, Zhao Y, Han M, Ma L, Wang L. Five Cd(II) coordination polymers based on 2,3?,5,5?-biphenyltetracarboxylic acid and N-donor coligands: syntheses, structures and fluorescent properties[J]. CrystEngComm., 2014,16:6417-6424. doi: 10.1039/c4ce00355a

    10. [10]

      Ding J. G, Yin C, Zheng L. Y, Han S. S, Li B. L, Wu B. Tuning cadmium coordination architectures using 1,4-bis(1,2,4-triazol-1-ylmethyl) benzene and sulfoisophthalate[J]. RSC Adv., 2014,4:24594-24600. doi: 10.1039/c4ra02291b

    11. [11]

      Pan M, Su C. Y. Coordination assembly of Borromean structures[J]. CrystEngComm., 2014,16:7847-7859. doi: 10.1039/C4CE00616J

    12. [12]

      Du M, Li C. P, Liu C. S, Fang S. M. Design and construction of coordination polymers with mixed-ligand synthetic strategy[J]. Coord. Chem. Rev., 2013,257:1282-1305. doi: 10.1016/j.ccr.2012.10.002

    13. [13]

      Heine J, Gunne J. S, Dehnen S. Formation of a strandlike polycatenane of icosahedral cages for reversible one-dimensional encapsulation of guests[J]. J. Am. Chem. Soc., 2011,133:10018-10021. doi: 10.1021/ja2030273

    14. [14]

      Hou L, Li D, Shi W. J, Yin Y. G, Ng S. W. Ligand-controlled mixed-valence copper rectangular grid-type coordination polymers based on pyridylterpyridine[J]. Inorg. Chem., 2005,44:7825-7832. doi: 10.1021/ic050558d

    15. [15]

      Gou L, Xu L. F, Hu H. M, Wang B. C, Chen X. L, Tang Z. X. NiII-CdII heterometallic coordination compounds constructed from metal-containing N,N?-rodlike building block (Ni(4?-(3-pyridyl)-2,2?:6?,2??- terpyridine)2)2+ cation[J]. Z. Anorg. Allg. Chem., 2008,634:1215-1220. doi: 10.1002/(ISSN)1521-3749

    16. [16]

      Li N, Gou L, Hu H. M, Chen S. H, Chen X. L, Wang B. C, Wu Q. R, Yang M. L, Xue G. L. The effect of organic acid on self-assembly process: syntheses and characterizations of six novel cadmium(II)/zinc(II) complexes derived from mixed ligands[J]. Inorg. Chim. Acta, 2009,362:3475-3483. doi: 10.1016/j.ica.2009.03.033

    17. [17]

      Yang X. L, Shangguan Y. Q, Hu H. M, Xu B, Wang B. C, Xie J, Yuan F, Yang M. L, Dong F. X, Xue G. L. Synthesis, crystal structures and luminescent properties of zinc(II) metal-organic frameworks constructed from terpyridyl derivative ligand[J]. J. Solid State Chem., 2014,216:13-22. doi: 10.1016/j.jssc.2014.04.017

    18. [18]

      Christopher B. S, Colin L. R, Alexandre N. S. Poly(ethyleneglycol) (PEG): a versatile reaction medium in gaining access to 4?-(pyridyl)-terpyridines[J]. Green Chem., 2005,7:650-654. doi: 10.1039/b507581p

    19. [19]

      Zhang X, Hou L, Liu B, Cui L, Wang Y. Y, Wu B. Syntheses, structures, and luminescent properties of six new zinc(II) coordination polymers constructed by flexible tetracarboxylate and various pyridine ligands[J]. Cryst. Growth Des., 2013,13:3177-3187. doi: 10.1021/cg400579w

    20. [20]

      Lu J. F, Shi J, Zheng N, Guo X. H, Ge H. G. Synthesis, crystal structure and luminescent property of a Ag(Ι) coordination polymer with a 3D sandwich-like framework[J]. Chin. J. Struct. Chem., 2016,35:293-297.

    21. [21]

      Si C. D, Hu D. C, Fan Y, Wu Y, Yao X. Q, Yang Y. X, Liu J. C. Seven coordination polymers derived from semirigid tetracarboxylic acids and N-donor ligands: topological structures, unusual magnetic properties, and photoluminescences[J]. Cryst. Growth Des., 2015,15:2419-2432. doi: 10.1021/acs.cgd.5b00205

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