Yeni Esnek Ditiya-alkil Köprülü Homo-dimerik Metalsiz ve Metalli ftalosyaninler

Bu çalışmada, homo dimerik metal içermeyen ve metaloftalosiyaninlerin organik çözücülerde spektroskopik özelliklerinin sentezi, karakterizasyonu ve araştırılması gerçekleştirilmiştir. Ftalosiyaninlerin sentezi için başlangıç bileşiği olarak seçilmiş diftalonitril türevi, 4-nitroftalonitril ve bileşik l'in kuru dimetilformamid / potasyum karbonat içinde reaksiyonu ile hazırlandı. 1:6.15 oranında ftalonitril ile substitue diftalonitrilin siklotetramerasizasyonu, beklenen homo-dimerik metal içermeyen ftalosiyanini ve Zn(II), Ni(II), Co(II) ve Cu(II) metal tuzları ile tetramerizasyonu da, binükleer Zn-, Ni-, Co- and Cu- ftalosyaninleri oluşturdu. Tüm bu reaksiyonlar, DMAE/1,8-diazabicyclo [5.4.0] undec-7-ene sisteminde gerçekleştirildi. Ürünler, kristallendirme ve silika jel kolon kromatografisi ile saflaştırıldı. Yeni hazırlanan bileşikler, IR, 1H / 13C-NMR, MS ve UV-Vis spektroskopisinin kombinasyonu ile karakterize edildi. Ayrıca, tüm yeni ftalosiyaninlerin agregasyon davranışları da araştırılmıştır. Metal içermeyen metalli-ftalosiyaninlerin agregasyon özellikleri kloroformda araştırılmıştır. Dimerik metal içermeyen metalli-ftalosiyaninler kloroformda 4x10-6-16x10-6 mol/L konsantrasyon aralığında agregasyon göstermemiştir. Ayrıca kloroform, N,N-dimetil formamid, dimetilsülfoksit, piridin ve tetrahidrofuranda Co-ftalosiyanin molekülünün agregasyon özellikleri araştırılmıştır. Co-ftalosiyanin molekülü, 1x10-5 mol/L konsantrasyonda belirtilen çözücülerde monomerik davranış göstermiştir.

Anahtar Kelimeler:

agregasyon, dimerik ftalosiyanin, ftalosiyanin, sentez, spektroskopi

Novel Flexible Dithia-alkyl Bridged Homo-dimeric Metal-free and Metallophthalocyanines

In this study, synthesis, characterization and investigation of spectroscopic properties in organic solvents of homo dimeric metal free and metallophthalocyanines have been carried out. The substituted di-phthalonitrile derivative as a starting material for the synthesis of phthalocyanines was prepared by the reaction of 4-nitrophthalonitrile and compound 1 in dry dimethylformamide/potassium carbonate. The cyclotetramerization of substituted diphthalonitrile derivative with phthalonitrile in 1:6.15 ratio gave the expected homo-dimeric metal-free phthalocyanine and with metal salts of Zn(II), Ni(II), Co(II) and Cu(II) gave binuclear Zn-, Ni-, Co- and Cu-phthalocyanines, respectively, in dimethyl aminoethanol/1,8-diazabicyclo [5.4.0] undec-7-ene system. The products were purified by crystallization and silica gel column chromatography. The newly prepared compounds were characterized by a combination of IR, 1H / 13C-NMR, MS and UV-Vis spectroscopy. In addition, aggregation behaviors of all novel phthalocyanines were investigated. Aggregation properties of the metal free and metallophthalocyanines have been investigated in chloroform. Dimeric metal free and metallophthalocyanines did not show aggregation in chloroform at 4x10-6–16x10-6 mol/L concentration range. Furthermore, aggregation properties of Co- phthalocyanine have been investigated in chloroform, N,N–dimethyl formamide, dimethylsulfoxide, pyridine and tetrahydrofurane. Co-phthalocyanine complex showed monomeric behavior in mentioned solvents at 1x10-5 mol/L concentration.

Keywords:

Aggregation, dimeric phthalocyanine, phthalocyanine, synthesis, spectroscopy,

PDF

___

1. Sumimoto, M., Yokogawa, D., Kawashima, Y., Hori, K., Fujimoto, H., Theoretical and experimental study on the excited states of the X-, α- and β-forms of lithium phthalocyanine, Spectrochim. Acta A. 2012, 91, 118–125. 2. Cook, M. J., Liquid-crystalline oligomeric and polymeric phthalocya-nines, Adv. Mater. 1995, 7, 877-880. 3. Sadaoka, Y., Jones, T. A., Gopel, W., Deterioration phenomena of electrochemical CO2 sensor with Pt, Na2CO3/Na2O–Al2O3–4SiO2// YSZ/Pt structure, Sensors Actuat. B-Chem. 1990, 1, 148-153. 4. Jiang, J., Kasuga, K., Arnold, D. P., Nalwa, H. S., Supramolecular Photosensitive and Electroactive Materials. Academic Press: San Diego, 2001, 188. 5. Koca, A., Sener, M. K., Koçak, M. B., Gül, A., Investigation of the electrocatalytic activity of metalophthalocyanine complexes for hydrogen production from water, Int. J. Hydrogen Energ. 2001, 31, 2211-2216. 6. Aga, H., Aramata, A., Hisaeda, Y., The electroreduction of carbon dioxide by macrocyclic cobalt complexes chemically modified on a glassy carbon electrode, J. Electroanal. Chem. 1997, 437, 111-118. 7. Zagal, J. H., Metallophthalocyanines as catalysts in electrochemical reactions, Coord. Chem. Rev. 1992, 119, 89-136. 8. McKeown, N. B., Phthalocyanine Materials–Synthesis, Structure and Functions, Cambridge University Press, Cambridge, 1998. 9. Ray, A., Chattopadhyay, S., Bhattacharya, S., Photophysical and theoretical insights on non-covalently linked fullerene-zinc phthalocyanine complexes, Spectrochim. Acta A. 2011, 79, 1435–1442. 10. Gregory, P., Industrial applications of phthalocyanines, J. Porphyr. Phthalocya. 2000, 4, 432–437. 11. Zhang, J., Tse, Y. H., Pietro, W. J., Lever, A. B. P., Electrocatalytic activity of N,N',N'',N'''-tetramethyl-tetra-3,4-pyridoporphyrazinocobalt (II) adsorbed on a graphite electrode towards the oxidation of hydrazine and hydroxylamine, J. Electroanal. Chem. 1996, 406, 203-211. 12. Merey, S., Bekaroglu, Ö., Synthesis and characterization of novel phthalocyanines with four tridentate NNS substituents and four chloro groups, J. Chem. Soc. Dalton. 1999, 24, 4503-4510. 13. Kadish, K. M., Nakanishi, T., Gürek, A., Ahsen, V., Yılmaz, İ., Nakanishi, T., Electrochemistry of a double-decker lutetium(III) phthalocyanine in aqueous media. The first evidence for five reductions, J. Phys. Chem. B. 2001, 105, 9817-9821. 14. Koike, N., Uekusa, H., Ohashi, Y., Harnoode, C., Kitamura, F., Ohsaka, T., Tokuda, K., Relationship between the skew angle and interplanar distance in four bis(phthalocyaninato)lanthanide(III) tetra-butylammonium salts ([NBu(4)(n)][Ln(III)Pc(2)]; Ln=Nd,Gd,Ho,Lu), Inorg. Chem. 1996, 35, 5798-5804. 15. Jin, S., Cheng, G., Chen, G. Z., Ji, Z., Tuning the maximum absorption wavelengths of phthalocyanine derivatives, J. Porphyr. Phthalocya. 2005, 9, 32–39. 16. Rodriguez-Morgade, M. S., De la Torre, G., Torres, T., The Porphyrin Handbook, eds. Kadish, K. M., Smith, K. M., Guilard, R. Academic Press, San Diego, 2003, 15, 125. 17. Değirmencioğlu, İ., Bayrak, R., Er, M., Serbest, K., New olefinic centred binuclear clamshell type phthalocyanines: design, synthesis, structural characterisation, the stability and the change in the electron cloud at olefine-based symmetrical diphthalonitrile fragment by the combined application of UV–Vis electronic structure and theoretical methods, Polyhedron 2011, 30, 1628-1636. 18. Vior, M. C. G., Dicelio, L. E., Awruch, J., Synthesis and properties of phthalocyanine zinc(II) complexes replaced with oxygen and sulfur linked adamantane moieties, Dyes Pigments 2009, 83, 375–380. 19. Perin D. D., Armarego W. L. F., Purification of Laboratory Chemicals, Pergamon, Oxford, 1989. 20. Patra, A., Sarkar, S., Chakraborty, R., Drew, M. G. B., Chattopadhyay, P., Coordination behavior of symmetrical hexadentate O2N2S2-donor Schiff bases toward zinc (II): synthesis, characterization, and crystal structure, J. Coord. Chem. 2010, 63, 1913-1920. 21. Young, G. J., Onyebuagu, W., Synthesis and characterization of di-disubstituted phthalocyanines, J. Org. Chem. 1990, 55, 2155-2159. 22. Cong, F., Li, J., Ma, C., Gao, J., Duan, W., Du, X., Tuning J-type dimers of non-peripherally substituted zinc tetra-4-tert-butylpheno-phthalocyanine, Spectrochim. Acta A. 2008, 71, 1397–1401. 23. Öztürk, C., Erdoğmuş¸ A., Durmuş¸ M., Uğur, A. L., Kılıçarslan, F. A., Erden, İ., Highly soluble 3,4-(dimethoxyphenylthio) substituted phthalocyanines: Synthesis, photophysical and photochemical studies, Spectrochim. Acta A. 2012, 86, 423–431. 24. Bayrak, R., Akçay, H. T., Durmuş, M., Değirmencioğlu, İ., Synthesis, photophysical and photochemical properties of highly soluble phthalocyanines substituted with four 3,5-dimethylpyrazole-1-methoxy groups, J. Organomet. Chem. 2011, 696, 3807-3815. 25. Yabaş, E., Sülü, M., Saydam, S., Dumludağ, F., Salih, B., Bekaroğlu, Ö., Synthesis, characterization and investigation of electrical and electrochemical properties of imidazole substituted phthalocyanines, Inorgan. Chim. Acta. 2011, 365, 340–348. 26. Değirmencioğlu, İ., Bayrak, R., Er, M., Serbest, K., The microwave-assisted synthesis and structural characterization of novel, dithia-bridged polymeric phthalocyanines containing a substituted thiophenylamine Schiff base, Dyes Pigments 2009, 83, 51-58. 27. Kantekin, H., Dilber, G., Nas, A., Microwave-assisted synthesis and characterization of a new soluble metal-free and metallophthalo-cyanines peripherally fused to four 18-membered tetrathiadiaza macrocycles, J. Organomet. Chem. 2010, 695, 1210–1214. 28. Dubinina, T. V., Trashin, S. A., Borisova, N. E., Boginskaya, I. A., Tomilova, L. G., Zeﬁrov, N. S., Phenyl-substituted planar binuclear phthalo- and naphthalocyanines: synthesis and investigation of physicochemical properties, Dyes Pigments 2012, 93, 1471-1480. 29. Dubinina, T. V., Ivanov, A. V., Borisova, N. E., Trashin, S. A., Gurskiy, S. I., Tomilova, L. G., Zeﬁrov, N. S., Synthesis and investigation of spectral and electrochemical properties of alkyl-substituted planar binuclear phthalocyanine complexes sharing a common naphthalene ring, Inorg. Chim. Acta. 2010, 363, 1869–1878. 30. Yarasir, M. N., Kandaz, M., Güney, O., Salih, B., Synthesis and photophysical properties of metallophthalocyanines substituted with a benzofuran based fluoroprobe, Spectrochim. Acta A. 2012, 93, 379-383. 31. Schimid, G., Sommerauer, M., Geyer, M., Hanack, M., Phyhalocyanines properties and applications, Eds: Leznoff, C. C. and Lever, A. B. P. VCH Publishers, Inc., New York, 1996, 4, 1-18. 32. De la Torre, G., Claessens, C. G., Torres, T., Phthalocyanines: The need for selective synthetic approaches, Eur. J. Org. Chem. 2000, 32, 2821-2830. 33. Bakboord, J. V., Cook, M. J., Hamuryudan, E., Non-uniformly substituted phthalocyanines and related compounds: alkylated tribenzo-imidazolo[4,5) porphyrazines, J. Porphyr. Phthalocya. 2000, 4, 510-517. 34. Arslanoğlu, Y., Koca, A., Hamuryudan, E., Synthesis of novel unsymmetrical phthalocyanines substituted with crown ether and nitro groups, Polyhedron 2007, 26, 891-896. 35. Kulaç¸ D., Bulut, M., Altındal, A., Özkaya, A. R., Salih, B. and Bekaroğlu, Ö., Synthesis and characterization of novel 4-nitro-2-(octyloxy)phenoxy substituted symmetrical and unsymmetrical Zn(II), Co(II) and Lu(III)