Phosphores- cence of In(III)Cl-Etioporphyrin-I at 298 K

Phosphorescence of In(III)Cl-etioporphyrin-I in thin films of polyvinylbutyral was recorded at room temperature and atmospheric conditions. A series of phosphorescence spectra was obtained using the stroboscopic method, on the basis of which the glow duration τ_Р ≈ 42 μs at 298 K was determined. A decrease in τ_Р by almost two orders of magnitude with a change in temperature from 77 to 298 K confirms the quenching effect of atmospheric oxygen in the gas-permeable polymer matrix. With an increase in the excitation power density by ∼300 times, the quantum yield of phosphorescence at 298 K increases by ∼30 times, reaching a value of ϕ_Р ≈ 0.74%.

1. В. Л. Ермолаев, Е. Б. Свешникова. Acta Phys. Polon., 34, N 5 (1968) 771-800

2. В. Л. Ермолаев, Е. Б. Свешникова. Опт. спектр., 28, № 3 (1970) 601-603

3. К. Н. Соловьёв, Е. А. Борисевич. УФН, 175, № 3 (2005) 247-270 [K. N. Solov’ev, E. A. Borisevich. Phys. Uspekhi, 48 (2005) 231-253]

4. R. Narayanaswamy, O. S. Wolfbeis. Optical Sensors: Industrial, Environmental and Diagnostic Applications, Springer Verlag, Heidelburg, Germany (2004)

5. O. S. Wolfbeis. Anal. Chem., 78, N 12 (2006) 3859-3874

6. M. E. Diaz Garcia, A. Sanz-Medel. Anal. Chem., 58, N 7 (1986) 1436-1440

7. G. DiMarco, M. Lanza. Sensors and Actuators B, 63, N 1-2 (2000) 42-48

8. J. Kuijt, F. Ariese, U. A. Th. Brinkman, С. Gooijer. Anal. Chim. Acta, 488 (2003) 135-171

9. D. B. Papkovsky, J. Olah, I. V. Troyanovsky, N. A. Sadovsky, V. D. Rumyantseva, A. F. Mironov, A. I. Yaropolov, A. P. Savitsky. Biosensors and Bioelectronics, 7, N 3 (1992) 199-206

10. A. S. Starukhin, A. Yu. Panarin. J. Appl. Spectr., 90 (2023) 1037-1042

11. P. P. Pershukevich, V. A. Galievsky, A. S. Stasheuski, E. A. Makarova, E. A. Luk’yanets, K. N. Solovyov. J. Appl. Spectr., 77 (2010) 790-801

12. P. P. Pershukevich, D. I. Volkovich, E. A. Makarova, E. A. Lukyanets, K. N. Solovyov. Opt. and Spectrosc., 128 (2020) 1789-1799

13. C. Liu, C. Dong, C. Gao, S. Shuang, W. Jin, Yanli Wei, Yansheng Wei. Trends Appl. Spectrosc., 5 (2004) 195-224

14. I. B. Rietveld, E. Kim, S. A. Vinogradov. Tetrahedron, 59 (2003) 3821-3831

15. S. V. Apreleva, D. F. Wilson, S. A. Vinogradov. Appl. Optics, 45, N 33 (2006) 8547-8559

16. O. S. Wolfbeis. Anal. Chem., 78, N 12 (2006) 3859-3874

17. Y. Amao. Microchim. Acta, 143, N 1 (2003) 1-12

18. O. Stern, M. Volmer. Phys. Zeitschrift, 20 (1919) 183-188

19. S.-K. Lee, I. Okura. Spectrochim. Acta A, 54, N 1 (1998) 91-100

20. Y. Amao, T. Miyashita, I. Okura. J. Porphyr. Phthaloc., 5, N 5 (2001) 433-438

21. D. В Papkovsky. G. V. Ponomarev, W. Trettnak, P. O’Leary. Anal. Chem., 67, N 22 (1995) 4112-4117

22. M. Smiddy, N. Papkovskaia, D. B. Papkovsky, J. P. Kerry. Food Res. Intern., 35, N 6 (2002) 577-584

23. J. A. Bonanno, T. Stickel, T. Nguyen, T. Biehl, D. Carter, W. J. Benjamin, P. Sarita Soni. Invest Ophthalmol. Visual Sci., 43, N 2 (2002) 371-376

24. I. Dunphy, S. A. Vinogradov, D. F. Wilson. Anal. Biochem., 310, N 2 (2002) 191-198

25. D. F. Wilson, S. A. Vinogradov, B. W. Dugan, D. Biruski, L. Waldron, S. A. Evans. Compar. Biochem. Physiol. Part A, 132, N 1 (2002) 153-159

26. A. Mills. Chem. Soc. Rev., 34 (2005) 1003-1011

27. T. C. O’Riordan, H. Voraberger, J. P. Kerry, D. B. Papkovsky. Anal. Chim. Acta, 530, N 1 (2005) 135-141

28. F. C. O’Mahony, T. C. O’Riordan, N. Papkovskaia, J. P. Kerry, D. B. Papkovsky. Food Control, 17, N 4 (2006) 286-292

29. A. I. Koptyaev, Y. A. Zhabanov, G. L. Pakhomov, P. P. Pershukevich, S. M. Arabei, P. A. Stuzhin. Int. J. Mol. Sci., 24, N 20 (2023) 15168

30. O. I. Koifman, E. D. Rychikhina, V. V. Travkin, Y. I. Sachkov, P. A. Stuzhin, N. V. Somov, P. A. Yunin, Y. A. Zhabanov, G. L. Pakhomov. Chem. Plus Chem., 88, N 5 (2023) e202300141

31. A. H. Al-Hamdani, R. A. Hadi, R. Nader. Iraq. J. Phys., 12, N 23 (2014) 59-64

32. М. И. Дерябин, М. В. Ерина, Н. В. Жданова. Наука. Инновации. Технологии. Физико-математические науки, № 2 (2018) 25-34

33. Р. Aвармаа. Изв. АН Эст. ССР. Физика. Математика, 27, № 1 (1978) 52-62