Abstract
Polymeric copper(II), [Cu(μ-dpc)(μ-4-hymp)] n (1), and monomeric nickel(II), [Ni(dpc)(4-hymp)(H2O)2]·H2O (2), (dpc: dipicolinate, 4-hymp: 4-hydroxymethyl pyridine), dipicolinate complexes have been prepared and characterized by spectroscopic (IR, UV–Vis, EPR), thermal (TG/DTA), X-ray diffraction technique and electrochemical methods. In both the dipicolinate complexes, the dpc dianion acts as a tridentate ligand. In polymeric copper(II) complex, the 4-hymp and dpc ligands adopt a bridging position between the Cu(II) centers, forming the elongated octahedral geometry. The polymeric chains are linked to one another via O–H···O hydrogen bond interactions, forming the 3-D polymeric structure. The Ni(II) ion is bonded to dpc ligand through pyridine N atom together with one O atom of each carboxylate group, two aqua ligands and N pyridine atom of 4-hymp, forming the distorted octahedral geometry. The Ni(II) complexes are connected to one another via O–H···O hydrogen bonds, forming R 24 (18) motifs in 2-D pattern. The powder EPR spectra of copper(II) complex have indicated that the paramagnetic center is in rhombic symmetry with the Cu2+ ion having distorted octahedral geometry. IR and UV–Vis spectroscopes all agree with the observed crystal structure.
Similar content being viewed by others
References
Slieman TA, Nicholson WL (2001) Appl Environ Microbiol 67:1274
Errington J (1993) Microbiol Rev 57:1
Janssen FW, Lund AJ, Anderson LE (1958) Science 127:26
Murakami K, Tanemura Y, Yoshino M (2003) J Nutr Biochem 14:99
Couper L, Mckendrick JE, Robins DJ, Chrystal EJT (1994) Bioorg Med Chem Lett 4:2267
Kazuhiro Y, Noriko Y, Tadayasu F (1994) Europ Patent EP0603165
Burdock GA (1996) Ancyclopedia of food and color additives, vol 3. CRC Press, Boca Raton
Ma C, Chen C, Liu Q, Liao D, Li L (2003) Eur J Inorg Chem 2003(6):1227
Xie C, Zhang B, Liu X, Wang X, Kou H, Shen G, Shen D (2004) Inorg Chem Commun 7(9):1037
Yang L, Crans DC, Miller SM, La Cour A, Anderson OP, Kaszynski PM, Godzala ME, Willsky GR (2002) Inorg Chem 41:4859
Hoof DL, Tisley DG, Walton RA (1973) J Chem Soc Dalton Trans 200
Morimoto I, Tanaka S (1963) Anal Chem 35:141
Sheu C, Sawyer DT (1990) J Am Chem Soc 112:8212
Gourdon PLA, Launay J-P (1995) Inorg Chem 34:5129
Buglyó P, Crans DC, Nagy EM, Lindo RL, Yang L, Smee JJ, Jin W, Chi L-H, Godzala ME, Willsky GR (2005) Inorg Chem 44:5416
Wang Y, Odoko M, Okabe N (2004) Acta Crystallogr E60:m1178
Okabe N, Oya N (2000) Acta Crystallogr C56:305
Perry JJ, McManus GJ, Zaworotko MJ (2004) J Chem Cryst 34:877
Du M, Cai H, Zhao X-J (2006) Inorg Chim Acta 359:673
Gourdon PLA, Launay J-P (1995) Inorg Chem 34:5138
Drew MGB, Fowles GWA, Matthews RW, Walton RA (1969) J Am Chem Soc 9:7769
Mdluli K, Swanson S, Fischer E, Lee RE, Barry CE (1998) Mol Microbiol 27:1223
Maroszova J, Moncol J, Lis T, Koman M (2007) Achievements in coordination. Bio App Inorg Chem (Slovak Technical University Press) 167–172
Moncol J, Maroszova J, Koman M, Melnik M, Valko M, Mazur M, Lis T (2008) J Coord Chem 61:3740
Moncol J, Kalinakova B, Svorec J, Kleinova M, Koman M, Hudecova D, Melnik M, Mazur M, Valko M (2004) Inorg Chim Acta 357:3211
Moncol J, Mudra M, Lonnecke P, Koman M, Melnik M (2004) J Chem Cryst 34:423
Hoang NN, Valach F, Melník M (1993) Acta Crystallogr C49:467
Uçar I, Bulut A, Büyükgüngör O (2005) Acta Crystallogr C61:m479
Uçar I, Bulut A, Karadağ A, Kazak C (2007) J Mol Struct 837:38
Uçar I, Karabulut B, Bulut A, Büyükgüngör O (2007) J Mol Struct 834–836: 336
Stoe & Cie (2002) X-AREA (version 118) and X-RED (version 104). Stoe & Cie, Darmstadt
Sheldrick GM (1997) SHELXL97, program for crystal structure refinement. University of Gottingen, Germany
Burnett MN, Johnson CK, ORTEPIII (1996) Report ORNL-6895. Oak Ridge National Laboratory, Tenessee
Moncol J, Koman M, Melnik M, Glowiak T (2001) Cyst Eng Comm 54:1
Moncol J, Segla P, Miklos D, Mazur M, Melnik M, Glowiak T, Valko M, Koman M (2006) Polyhedron 25:1561
Mudra M, Moncol J, Svorec J, Melnik M, Lönnecke P, Glowiak T, Kirmse R (2003) Inorg Chem Comm 6:1259
Kim KJ, Lee JH, Lee SH (2004) J Magn Magn Mater 279:173
Murphy B, Hathaway B (2003) Coord Chem Rev 243:237
Albada GA, Matikainen I, Turpeinen U, Reedijk J (2002) Acta Crystallogr E58:m55
Mao L, Wang Y, Qi Y, Cao M, Hu C (2004) J Mol Struct 688:197
Nathan LC, Mai TD (2000) J Chem Cryst 30: 509
Liu Y, Dou JM, Wang D, Zhang XX, Zhou L (2006) Acta Crystallogr E62:m2208
Zhang CX, Liao DZ, Jiang ZH, Yan SP, Zhao B (2003) Trans Met Chem 28:621
Ramadevi P, Kumaresan S, Muir KW (2005) Acta Crystallogr E61:m1749
Park H, Lough AJ, Kim JC, Jeong MH, Kang YS (2007) Inorg Chim Acta 360:2819
Etter MC (1990) The graph set topological terminology for the analysis of hydrogen bonded network patterns is described in: Acc Chem Res 23:120
Kozlevcar B, Humar MB, Strauch P, Leban I (2005) Z Naturforsch B60:1273
David L, Craciun C, Cozar O, Chiş V, Agut C, Rusu D, Rusu M (2001) J Mol Struct 563–564:573
Dudley RJ, Hathaway BJ (1970) J Chem Soc Sec A 1970:2799
Simoes Gonçalves ML, Sigg L (1991) Electroanalysis 3:553
Correia dos Santos MM, Sousa PMP, Modesto AMM, Simoes Gonçalves ML (1998) Bioelectrochem Bioenerg 45:267
Çakır S, Bulut I, Biçer E, Coşkun E, Çakır O (2001) J Electroanal Chem 511:94
Mark HB, Reilley CN (1962) J Electroanal Chem 4:189
Hoang NN, Valach F, Menlik M (1993) Acta Cryst C49:467
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Uçar, İ., Bulut, İ., Bulut, A. et al. Polymeric and monomeric dipicolinate complexes with 4-hydroxymethyl pyridine: spectral, structural, thermal and electrochemical characterization. Struct Chem 20, 825–838 (2009). https://doi.org/10.1007/s11224-009-9475-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11224-009-9475-3