Dr. Tchaikovskaya Olga Nikolaevna
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Dr. Tchaikovskaya Olga Nikolaevna

Research Scientist
Tomsk State University, Russia

Highest Degree
PostDoc. in Physics from Tomsk State University, Russia

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Area of Interest:

Physics
100%
Spectroscopy
62%
Optics
90%
Water Liquids
75%
Material Sciences
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Plotnikova, I.V., O.V. Galtseva, O.N. Tchaikovskaya and S.A. Tchekarova, 2017. 26. Control System of Parameters of the Azimuthal Module. IOP Conf. Ser. Mater. Sci. Eng., .
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  2. Plotnikova, I.V., O.N. Efremova, N.V. Chicherina, O.N. Tchaikovskaya and J. Bastida, 2017. 29. The use of distance learning by students: Advantages and disadvantages. Ponte Acad. J., 73: 51-58.
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  3. Plotnikova, I.V., O.N. Chaikovskaya, I.V. Sokolova and V.R. Artyushin, 2017. 27. The analysis of toxic connections content in water by spectral methods. IOP Conf. Ser. J. Phys., 10.1088/1742-6596/881/1/012006.
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  4. Mal’tseva, E.V., L.V. Nechaev, N.V. Yudina and O.N. Chaikovskaya, 2017. Physicochemical and spectroluminescent properties of the humic acids of coals. Solid Fuel Chem., 51: 1-5.
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  5. Vusovich, O.V., O.N. Tchaikovskaya, I.V. Sokolova and N.Y. Vasil, 2016. Proteolytic equilibria of vanillic acid in the ground and excited states. J. Applied Spectros., 83: 8-11.
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  6. Vusovich O.V., O.N. Tchaikovskaya, I.V. Sokolova and N.Y. Vasilieva, 2016. Quantum-chemical study of electronically excited states of protolytic forms of vanillic acid. Proc. SPIE, 10.1117/12.2225721.
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  7. Tchaikovskaya, O.N., N.G. Bryantseva, J.G. Carrasco, V.S. Krayukhina, M.M. Almagro and M.G. Gomez, 2016. Kinetic model for uv/h2o2 Degradation of 5-methoxypsoralen. Russ. Phys. J., 59: 552-561.
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  8. Tchaikovskaya, O.N., L.V. Nechaev, N.V. Yudina and E.V. Mal'tseva, 2016. Quenching of fluorescence of phenolic compounds and modified humic acids by cadmium ions. Luminescence, 31: 1098-1102.
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  9. Nechaev, L.V. and O.N. Tchaikovskaya, 2016. Investigation of the Effect of humic acids on phototransformation of naphthalene illuminated by visible and UV light. Russ. Phy. J., 58: 1771-1774.
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  10. Mustafina, R.M., I.A. Plotnikov, I.V. Plotnikova and O.N. Tchaikovskaya, 2016. 23. Choice of parameters and stability of nonlinear vibration isolation device. J. Phys. Conf. Ser., .
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  11. Gomez, M., M.D. Murcia, E. Gomez, S. Ortega, A. Sanchez, O. Thaikovskaya and N. Briantceva, 2016. Modelling and experimental checking of the influence of substrate concentration on the first order kinetic constant in photo-processes. J. Environ. Manage., 183: 818-825.
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  12. Vershinin, N., I. Sokolova, O. Tchaikovskaya and K. Nevolina, 2015. Features of the photodegradation of 2, 4-dichlorophenoxyacetic acid under the influence of radiation from krcl excilamps. J. Applied Spectrosc., 82: 831-834.
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  13. Tchaikovskaya, O.N., E. Karetnikova, M.D. Murcia, M. Gomez and J.L. Gomez, 2015. Photodegradation of 2-methyl-4-chlorophenol in a KrCl exciplex flow-through photoreactor: A kinetic study. Desalin. Water Treat., 54: 1862-1871.
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  14. Tchaikovskaya, O.N. and L.V. Nechaev, 2015. The interaction between humic acid and naphthalene after exposure to visible and UV light. SPIE Proceeding, 10.1117/12.2225636.
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  15. Tchaikovskaya, O., I. Sokolova, 2015. Photoreactors for solving problems of environmental pollution. Russ. Phy. J., 57: 1725-1731.
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  16. Plotnikova, I., L. Redko, O. Titova and O. Chaykovskaya, 2015. Development of the production process model based on the controllable input factors. IOP Conf. Ser. Mater. Sci. Eng., .
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  17. Petrova, A.Y., O.N. Chaikovskaya and I.V. Plotnikova, 2015. Investigation of bactericide systems using a microfiber polypropylene carrier. Technical Phy., 60: 592-594.
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  18. Nechaev, L.V., O.N. Tchaikovskaya, M.T.V. Elizaveta and M.V. Yudina, 2015. Development of a new technology of environmental purification from naphthalene. Adv. Mater. Res., 1085: 154-160.
  19. Lysak, I.A., T.D. Malinovskaya, O.N. Tchaikovskaya, G.V. Lysak and V.R. Artyushin, 2015. Photodegradation of an Herbicide (2-methyl-4-chlorophenoxyacetic acid) in the Presence of “TiO2, SnO2, Polypropylene Fibrous Carrier. Adv. Mater. Res., 1085: 107-112.
  20. Bryantseva, N.G., O.N. Tchaikovskaya, N.B. Sultimova, V.A. Svetlichnyi, I.N. Lapin and V.S. Kraiukhina, 2015. 12. Photosensitized reactions of psoralen and herbicides revealed by the pump-probe method. Adv. Mater. Res., 1085: 161-168.
  21. Vusovich, O.V., O.N. Tchaikovskaya, I.V. Sokolova and N.Y. Vasil’eva, 2014. Experimental and quantum-chemical study of electronically excited states of protolytic isovanillin species. Russ. Phy. J., 57: 86-94.
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  22. Vershinin, N.O., I.V. Sokolova and O.N. Tchaikovskaya, 2013. 4. Degradations of 2,4-dichlorophenoxyacetic acid with photoreactor with excilamps. J. Applied spectrosc., 80: 639-643.
  23. Chaikovskaya, O.N., A.Y. Petrova, T.D. Malinovskaya and V.R. Artyushin, 2013. Spectral investigation of photochemical properties of polypropylene microfiber. Opt. Spectrosc., 114: 78-82.
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  24. 3. Nechaev, L.V., O.N. Chaikovskaya, I.V. Sokolova, A.V. Savel’eva, N.V. Yudina and E.V. Mal’tseva, 2013. Effect of simulated solar radiation on the interaction of humic acids with naphthalene. Russ. J. Applied Chem., 86: 510-514.
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