Abstract
The photophysical properties of three photosensitizers—dimegine, photoditazine, and radachlorin—have been comparatively examined. For dimegine and photoditazine, two techniques have been used to measure the singlet oxygen generation quantum yields and the quenching constants of singlet oxygen by dimegine and photoditazine, as well as the dimegine fluorescence quantum yield.
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REFERENCES
A. A. Krasnovskii, Jr., S. Yu. Yegorov, O. V. Nazarova, Ye. I. Yartsev, and G. V. Ponomarev, Biophysics 32, 1069 (1987).
S. Fickweiler, R.-M. Szeimies, C. Abels, G. V. Ponomarev, F. Hofstadter, O. S. Wolfbeis, and M. Landthaler, Photodermatol., Photoimmun. Photomed. 14, 125 (1998).
R. R. Allison, G. H. Downie, R. Cuenca, et al., Photodiagn. Photodyn. Ther. 1, 27 (2004).
R. R. Allison and C. H. Sibata, Photodiagn. Photodyn. Ther. 7, 61 (2010).
N. N. Glagolev, S. Zh. Rogovina, A. B. Solov’eva, N. A. Aksenova, and S. L. Kotova, Russ. J. Phys. Chem. A 80, 72 (2006).
N. A. Aksenova, V. A. Timofeeva, S. Z. Rogovina, P. S. Timashev, N. N. Glagolev, and A. B. Solov’eva, Polymer Sci., Ser. B 52, 67 (2010).
A. L. Glazov, I. V. Semenova, and O. S. Vasyutinskii, J. Appl. Laser Spectrosc. 2, 9 (2015).
I. V. Aksenova, R. T. Kuznetsova, I. P. Pozdnyakov, V. F. Plyusnin, M. B. Berezin, N. A. Bumagina, E. S. Jarnikova, M. V. Parkhats, and B. M. Dzhagarov, J. Photochem. Photobiol., A 344, 206 (2017).
V. V. Zarubaev, T. K. Kris’ko, E. V. Kriukova, and T. D. Muraviova, Photodiagn. Photodyn. Ther. 20, 137 (2017).
A. V. Dadeko, T. D. Muraveva, A. M. Starodubtsev, S. I. Gorelov, M. V. Dobrun, T. K. Krisko, I. V. Bagrov, I. M. Belousova, and G. V. Ponomarev, Opt. Spectrosc. 119, 633 (2015).
V. M. Kiselev, I. M. Kislyakov, and I. V. Bagrov, Opt. Spectrosc. 120, 859 (2016).
I. V. Bagrov, I. V. Belousova, O. B. Danilov, V. M. Kiselev, T. D. Murav’eva, and E. N. Sosnov, Opt. Spectrosc. 102, 52 (2007).
A. Hanf, A. Läuter, and H.-R. Volpp, Chem. Phys. Lett. 368, 445 (2003).
G. P. Gurinovich, A. N. Sevchenko, and K. N. Solov’ev, Sov. Phys. Usp. 6, 67 (1963).
M. C. DeRosa and R. J. Crutchley, Coord. Chem. Rev. 233–234, 351 (2002).
J. W. Arbogast, A. P. Darmanyan, et al., J. Phys. Chem. 95, 11 (1991).
W. Spiller, H. Kliesch, D. Wöhrle, S. Hackbarth, B. Roder, and G. Schnurpfeil, J. Porph. Phthalocyan. 2, 145 (1998).
V. P. Belik, I. M. Gadzhiev, M. V. Petrenko, M. A. Petrov, I. V. Semenova, and O. S. Vasyutinskii, Chem. Phys. Lett. 665, 127 (2016).
C. Schweitzer and R. Schmidt, Chem. Rev. 103, 1685 (2003).
M. Grabolle, M. Spieles, V. Lesnyak, N. Gaponik, A. Eychmüller, and U. Resch-Genger, Anal. Chem. 81, 6285 (2009).
C. Würth, M. Grabolle, Ju. Pauli, M. Spieles, and U. Resch-Genge, Nat. Protocols 8, 1535 (2013).
C. J. Ho, G. Balasundaram, W. Driessen, R. McLaren, C. L. Wong, U. S. Dinish, A. B. Attia, V. Ntziachristos, and M. Olivo, Sci. Rep. 2014, 5342 (2014).
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Bagrov, I.V., Dadeko, A.V., Kiselev, V.M. et al. Comparative Study of the Photophysical Properties of Dimegine, Photoditazine, and Radachlorin. Opt. Spectrosc. 125, 903–910 (2018). https://doi.org/10.1134/S0030400X19020048
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DOI: https://doi.org/10.1134/S0030400X19020048