Abstract
Reaction of Zn(NO3)2·6H2O with the bent bridging ligand 4,4′-dithiodipyridine (dtdp), showing axial chirality, in the presence of the chelating 1,10-phenanthroline (phen) ligand in ethanol yielded [{Zn(μ-dtdp)2(H2O)2}(NO3)2·2C2H5OH·2H2O] n (1). In 1, Zn2+ ions are linked by two dtdp ligands of opposite chirality into a one-dimensional coordination polymer of the repeated-rhomboid type; the phen co-ligand was not encountered in the crystal. Pseudo-symmetry of the lattice is discussed for 1. Reaction of Zn(NO3)2·6H2O and dtdp in an ethanol/water mixture in absence of phen led to the known repeated-rhomboid coordination polymer [{Zn(NO3)(μ-dtdp)2(H2O)}NO3·4H2O] n (2), the crystal structure of which was redetermined at 110 K. At low temperature, the nitrato-κO ligand in one axial position of Zn2+ was found to be non-disordered as distinct from the room temperature structure (Horikoshi and Mikuriya, Cryst Growth Des 5:223–230, 2005). The Zn2+ ions in 2 are joined by two dtdp ligands of the same chirality.
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Bureekaew S, Shimomura S, Kitagawa S (2008) Sci Technol Adv Mater 9:014108
Perry JJ IV, Perman JA, Zaworotko MJ (2009) Chem Soc Rev 38:1400–1417
Kuppler RJ, Timmons DJ, Fang Q-R, Lia J-R, Makala TA, Young MD, Yuan D, Zhao D, Zhuang W, Zhou H-C (2009) Coord Chem Rev 253:3042–3066
Farrusseng D, Aguado S, Pinel C (2009) Angew Chem Int Ed 48:7502–7513
Shimomura S, Bureekaew S, Kitagawa S (2009) Struct Bond 132:51–86
Janiak C, Vieth JK (2010) New J Chem 34:2366–2388
Fujita M, Yoshizawa M (2008) In: Diederich F, Stang PJ, Tykwinski RR (ed) Modern supramolecular chemistry. Wiley-VCH, Weinheim
Yoshizawa M, Klosterman JK, Fujita M (2009) Angew Chem Int Ed 48:3418–3438
Noro S-i, Kitagawa S, Akutagawa T, Nakamura T (2009) Prog Polym Sci 34:240–279
Kessler H, Rundel W (1968) Chem Ber 101:3350–3357
Horikoshi R, Mochida T (2006) Coord Chem Rev 259:2595–2609
Seidel RW, Oppel IM (2009) Acta Cryst C65:m235–m237
Dietz C, Seidel RW, Oppel IM (2009) Z Kristallogr New Cryst Struct 224:509–511
Seidel RW, Dietz C, Oppel IM (2011) Z Anorg Allg Chem 637:94–101
Erxleben A (2003) Coord Chem Rev 246:203–228
CrysAlisPro (2010) Agilent Technologies UK Ltd, Yarnton, Oxfordshire, England
Blessing RH (1995) Acta Cryst A51:33–38
Sheldrick GM (2008) Acta Cryst A64:112–122
Spek AL (2009) Acta Cryst D65:148–155
Brandenburg K (2010) Crystal Impact GbR, Bonn, Germany
Horikoshi R, Mikuriya M (2005) Cryst Growth Des 5:223–230
Araya MA, Cotton FA, Matonic JH, Murillo CA (1995) Inorg Chem 34:5424–5428
Bernstein J, Davis RE, Shimoni L, Chang N-L (1995) Angew Chem Int Ed 34:1555–1573
Wu B-L, Xu Y-q, Gong Y-g, Huang Y-g, Hong M-c (2007) J Coord Chem 60:2527–2532
Luo J, Hong M, Wang R, Yuan D, Cao R, Han L, Xu Y, Lin Z (2003) Eur J Inorg Chem 3623–3632
Manna SC, Konar S, Zangrando E, Drew MGB, Ribas J, Chaudhuri NR (2005) Eur J Inorg Chem 1751–1758
Manna SC, Ghosh AK, Zangrando E, Chaudhuri NR (2007) Polyhedron 26:1105–1112
Manna SC, Ribas J, Zangrando E, Chaudhuri NR (2007) Polyhedron 26:4923–4928
Carballo R, Covelo B, Fernandez-Hermida N, Lago AB, Vazquez-Lopez EM (2009) CrystEngComm 11:817–826
Zhu H-L, Zhang J, Lin J-L (2010) Acta Cryst E66:m185
Suen M-C, Wang Y-H, Hsu Y-F, Yeh C-W, Chen J-D, Wang J-C (2005) Polyhedron 24:2913–2920
Ghosh AK, Ghoshal D, Ribas J, Zangrando E, Chaudhuri NR (2006) J Mol Struct 796:195–202
Carballo R, Covelo B, Fernandez-Hermida N, Vazquez-Lopez EM (2007) Z Anorg Allg Chem 633:1787–1790
Suen M-C, Wang J-C (2006) Struct Chem 17:315–322
Yang X, Li D, Fu F, Tang L, Yang J, Wang L, Wang Y (2008) Z Anorg Allg Chem 634:2634–2638
Zhang J, Xu W (2010) Acta Cryst E66:m788–m789
Kondo M, Shimamura M, Noro S-i, Kimura Y, Uemura K, Kitagawa S (2000) J Solid State Chem 152:113–119
Yan L (2008) Z Kristallogr New Cryst Struct 223:533–534
Zhang J-P, Huang X-C, Chen X-M (2009) Chem Soc Rev 38:2385–2396
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RWS would like to thank Professor William S. Sheldrick for helpful discussions and Professor Christian W. Lehmann for generous support. Financial support from Bayer Material Science AG and the Deutsche Forschungsgemeinschaft (DFG) is acknowledged.
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Seidel, R.W., Dietz, C. & Oppel, I.M. Structural insight into repeated-rhomboid coordination polymers from 4,4′-dithiodipyridine and zinc nitrate. Struct Chem 22, 1225–1232 (2011). https://doi.org/10.1007/s11224-011-9811-2
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DOI: https://doi.org/10.1007/s11224-011-9811-2