O. N. Tchaikovskaya scite author profile

O. N. Tchaikovskaya

5Publications

51Citation Statements Received

61Citation Statements Given

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110

Affiliations

Institute of Electrophysics, National Research Tomsk State University

Publications

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Fluorescence analysis of photoinduced degradation of ecotoxicants in the presence of humic acids

Tchaikovskaya¹,

Соколова²,

Yudina³

2005

Luminescence

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The photolysis of humic acids and phenols in water containing humic acids was investigated. Humic acids extracted from peat (Vasuygan Bog, Tomsk Region, Russian Federation) induce the phototransformation of 4‐chlorophenol at 365 and 222 nm. Humic acids were characterized by UV‐, fluorescence‐, IR‐ and EPR‐spectroscopy and laser‐induced fluorescence. The influence of humic acids on the phototransformation of phenols in different irradiation conditions was investigated. Comparison of the data on mercury lamp irradiation showed that the most effective phenols degradation was observed under exposure to KrCl* exilamp light (λ = 222 nm) in the presence of humic acids. Copyright © 2005 John Wiley & Sons, Ltd.

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Fluorescence and bioluminescence analysis of sequential UV‐biological degradation of p‐cresol in water

et al. 2006

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The photolysis and Penicillium tardum H-2 degradation of p-cresol in water containing humic acids was investigated by fluorescence and bioluminescence methods. Humic acids extracted from peat (the Vasuygan bog, Tomsk region of Russia) induce the phototransformation of p-cresol. The influence of humic acids on the phototransformation of p-cresol under different irradiation conditions was investigated. Comparison of the data on the KrCl* (lambda = 222 nm) and XeCl* (lambda = 308 nm) excilamps light showed that the most effective p-cresol degradation was observed with mercury lamp irradiation in the presence of humic acids.

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Excitation energy effect on the early photophysics of hypericin in solution

Plaza

Mahet

Tchaikovskaya

et al. 2005

Chemical Physics Letters

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Untitled

Tchaikovskaya

Соколова

Kuznetsova³

et al. 2000

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Synthesis, Mass Spectroscopy Detection, and Density Functional Theory Investigations of the Gd Endohedral Complexes of C82 Fullerenols

et al. 2021

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Gd endohedral complexes of C82 fullerenols were synthesized and mass spectrometry analysis of their composition was carried out. It was established that the synthesis yields a series of fullerenols Gd@C82Ox(OH)y (x = 0, 3; y = 8, 16, 24, 36, 44). The atomic and electronic structure and properties of the synthesized fullerenols were investigated using the density functional theory calculations. It was shown that the presence of endohedral gadolinium increases the reactivity of fullerenols. It is proposed that the high-spin endohedral fullerenols are promising candidates for application in magnetic resonance imaging.

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