Cover Image

Fluorescence study, Raman spectroscopy, crystal structure, antimicrobial and antioxidant activities of cobalt (III) complex with a tridentate coumarin ligand

Imen Ketata, Taroub Bouzaiene, Taicir Ben Ayed, Rached Ben Hassen

Abstract


Cobalt (III) complex diamine chloride was obtained from the reaction of Co (OAc)2, 4H2O; ethylene diamine and 3-acetyl-4-hydroxy-chromene- 2-one. The obtained product was characterized by Raman scattering, fluorescence and UV-visible spectroscopy. The room temperature structure was determined by single-crystal X-ray diffraction. The purity of the product was checked by X-ray powder diffraction analysis. Rietveld refinement using powder XRD confirms structure model determined by single-crystal X-ray diffraction (space group Pcca, a = 20.599(2) Å, b = 7.888(4) Å, c = 18.3820(1) Å and Z = 4). The metal complex was checked for its antimicrobial activity using well diffusion method and shows significant results by comparison with commercial antibiotics. Antioxidant tests indicate that the complex is an effective DPPH radical scavenger with an IC50 value of 26.32 μM.

Full Text:

PDF

References


- S.S. Djebbar, B.O. Benali, J.P. Deloume, Polyhedron, 1997, 16, 2175-2182.

- L. He, Sh. Gou, Q. Shi., M. Qian, Ch. Duan, J. Chemical Crystallography, 1999, 29,207- 210.

- H. Liang, Qing Yu, R. Hu, Zh. Zhou, Xi. Zhou, Transition Metal Chemistry, 2002, 27, 454–457.

- B.K. Rai, J. Ind. Council Chem., 2008, 25, 137-141.

- Yu-Xi Sun, Metal-Organic and NanoMetal Chemistry, 2006, 36, 621-625.

- A.A.A. Abu-Hussen. J. Coord. Chem., 2006, 59, 157-176.

- R. Atkins, G.A. Brewer, E. Kokot, G.M. Mockler, E. Sinn, Inorg. Chem., 1985, 24, 127–134.

- R. K. Parashar, R. C. Sharma, A. Kumar, G. Mohan, Inorg. Chim. Acta, 1988, 151, 201-208.

- H. Shimakoshi, T. Kaieda, T. Matsuo, H. Sato, and Y. Hisaeda, Tetrahedron Letters, 2003, 44, 5197–5199.

- P. J.Sadler, Advances in Inorganic Chemistry, 1991, 36, 1-48.

- H. López-Sandoval, M. E. Londoño-Lemos, R. Garza-Velasco, Journal of Inorganic Biochemistry, 2008, 102, 1267–1276.

- K. Nomiya, A. Yoshizawa, K. Tsukagoshi, N. C. Kasuga, S. Hirakawa, J. Watanabe,

Journal of Inorganic Biochemistry,2004, 98, 46-60.

- J. Lv, T. Liu, S. Cai, X. Wang, L. Liu, and Y. Wang, Journal of Inorganic Biochemistry,2006, 100, 1888-1896.

- A. Bottcher, T. Takeuchi, K. I. Hardcastle, T. J. Meade, H. B. Gray, Inorganic Chemistry, 1997, 36, 2498–2504.

- F. Dimiza, A. N. Papadopoulos, V. Tangoulis, Dalton Transactions, 2010, 39, 8555-8568.

- J.R.Lakowicz (Eds.), Principles of Fluorescence Spectroscopy; Kluwer Academic/Plenum Publishers: New York, NY, USA, 1999, p. 280.

- A. P. Silva, H.Q.N. Gunaratante, Th. Gunnlaugsson, A.J.M. Huxley, C.P. Mc Coy, J.T. Rademacher, T.E. Rice, Chem. Rev. ,1997,97,1515–1566.

- M. Kaytal, H. B. Singh, Talanta ,1968, 15, 1043-1054.

- A. Vogler, H. Kunkely, Coord. Chem. Rev., 1998, 177, 81-96

- R. Dreos, L. Mechi, L. Randaccio, P. Siega, E. Zangrando, R. Ben Hassen, Organomet. Chem., 2006, 691, 3305-3309.

- L. Mechi, P. Siega, R. Dreos, E. Zangrando, L. Randaccio, European J. of Inorg. Chem.2009 ,18, 2629-2638.

- I. Ketata, L. Mechi, T. Ben Ayed, M. Dusek, V. Petricek, R. Ben Hassen,Open J. of Inorg. Chem.,2012, 21,33-39.

- J. Rohlicek, I. Ketata, T. Ben Ayed, R. Ben Hassen,J. of Molecular Structure,2013, 1051, 280-284.

- L. Mechi, S. Chtiba, N. Hamdi, R. Ben Hassen, J. Acta Cryst. E, 2009,65, o1652.

- A. Ghouili, R. Ben Hassen, J. Acta. Cryst. E, 2011,67,o2209.

- A. Brahmia, T. Ben Ayed , R. Ben Hassen,J. Acta. Cryst.E, 2013, 69, o1296.

- N. Hamdi,M. Saoud,A. Romerosa,R. Ben Hassen, Heterocyclic Chem.,2009, 45, 11835-1842.

- Sheldrick, G. M. Program for Crystal Structure Determination, SHELXL-97, 1997.

- M. Lopez-Gresa, R. Ortiz, L. Perello, J. Latorre, M. Liu-Gonzalez, S. Garcıa-Granda,M. Perez-Priede, E. Canton, Inorg. Biochem, 2002, 92,65-74.

- A. Cakir, S. Kordali, H. Zengin, S. Izumi, T. Hirata, Flavour and Fragrance, 2004, 19, 62-68.

- T. Takao, N. Watanabe, I. Yagi, K.Sakata, Biosci. Biotech.Biochem.,1994, 58,1780-1783.

- P. Emseis, D. E. Hibbs, P. Leverett, N. Reddy a, P. A. Williams, Inorganica Chimica Acta,2004, 357,2669-2676.

- S. K. Gupta, P. B. Hitchcock, G. S. Argal, Inorganica Chimica Acta, 2008, 361, 2139-2146.

- A. A. Khandar, B. Shaabani, F. Belaj, A. Bakhtiari, Inorganica Chimica Acta, 2007, 360, 3255–3264.

- A. Kufelnicki , S. V. Tomyn , Y.S. Moroz , M. Haukka , J. Jaciubek-Rosinska, I.O. Fritsky, Polyhedron, 2012, 33, 410-416 .

- H. Lee, A R. Jeong, I.S, Shin, H. J. Kim, J. I. Hong,Org. Lett., 2010, 12, 764-767.

- K. Singh, Y. Kumar, P. Puri, M. Kumar, Ch. Sharma , European Journal of Medicinal Chemistry,2012, 52, 313–321.

- H. L. Singh, J. Singh, International Journal of Inorganic Chemistry, 2013, 2013, 10.

- B. A.Yamgar,V.A. Sawant, S. K. Sawant, S. S.Chavan, J. of Coordination Chemistry,2009,62, 2367–2374.

- M. J. Benecky, R. A. Copeland, Th. R. Hays, E. W. Lobenstine, R. P. Ravas, R. A. Pascal, Jr., Th. G. Spiro., Biolog. Chem., 1985, 260, 11663-11670.

- Wu. Wenpeng, C. Zexing, Y. Zhao, Chemical Physics, 2012, 136,1-9.

- GU. Baohua, R. Chuanmin, W. Wang, Applied Spectroscopy,2009,63, 98-102.

- J. D. Anastassopoulou , M. Berjot, J. Marx, C.M. Paleos ,T. Theophanides , A.J. P. Alix, Molecular Structure, 1997, 415, 225–237.J

- M. Tsubaki, N. Yut, Biophysics, 1981, 78, 3581-3585.

- A. Torreggiani, P. Taddei, G. Fini, J. Biopolyme, 2002, 67,70-81.

- Z. H. Chohan, M. Praveen, Appl. Organomet. Chem., 2001, 15, 617–625.

- K. Eleni, S. Yiannis, K. Nikos, K. Alexandra, P. George, Polyhedron, 2007, 26, 1148-1158.

- N.R.Bhalodia, P. B.Nariya, R.N.Acharya,V.J.Shukla,International Journal of PharmTech Research,2011, 3,589–599.

- S. B. Bukhari, S. Memon, M. Mahroof-Tahir, M.I. Bhanger, Spectrochim. Acta A, 2009, 71, 1901-1906.

- J. Gabrielska, M. Soczynska-Kordala, J. Hladyszowski, R. Zylka, J. Miskiewicz, S. Przestalski, J. Agric. Food Chem., 2006, 54, 7735-7746.




DOI: http://dx.doi.org/10.13171/mjc.3.1.2014.08.04.14

Copyright (c) 2015 Mediterranean Journal of Chemistry