[14] Yashchuk V.M., Kudrya

V.Yu

., Losytskyy

M.Yu

., Suga H., Ohulchanskyy T.Y.

The nature of the electronic excitations capturing centers in the DNV.

Journal of

Molecular Liquids

, 2006, vol. 127, iss. 1–3, pp. 79–83.

[15] Yashchuk V.M., Kudrya

V.Yu

., Levchenko S.M., Yevtushenko N.V. Some

peculiarities of electronic excitation energy structure of the biologic polynucleotides

and processes of triplet excitation trapping.

Naukov. zapiski NaUKMA. Ser. Fiziko-

matematichn. nauki

[Scientific Notes NaUKMA. Ser. Phys. and Math. Sciences],

2007, vol. 61, pp. 39–42.

[16] Vigny P., Favre A. Fluorescence and photochemistry of oligocytidylic and

polycytidylic acids in aqueous solution.

Photochemistry and Photobiology

, 1974,

vol. 20, iss. 4, pp. 345–349.

[17] Morgan J.P., Daniels M. Excited states of DNA and its components at room

temperature – III. Spectra, polarization and quantum yields of emissions from ApA

and poly rA

∗

.

Photochemistry and Photobiology

, 1980, vol. 31, iss. 2, pp. 101–113.

[18] Yashchuk V.M., Yarmoluk S.M., Kudrya

V.Yu

., Losytskyy

M.Yu

., Tokar V.P.,

Kravchenko V.M., Kovalska V.B., Balanda A.O., Kryvotenko D.V. Optical

Biomedical Diagnostics: Sensors with Optical Response Based on Two-Photon

Excited Luminescent Dyes for Biomolecules Detection.

Advances in Optical

Technologies

, 2008. vol. 2008, pp. 908246–908257.

[19] Shevchenko V.B., Datsenko O.I., Shablikin O.V., Osadchuk T.V., Lyakhov O.M.,

Pivovarenko Yu.V., Makara V.A. Estimation of the Ros in the Presence of

Biologically Active Substances by Porous Silicon Fluorescence.

Ukrains’kiy

Biokhimichniy Zhurnal

[The Ukrainian Biochemical Journal], 2012, vol. 84, no. 4,

pp. 74–78 (in Russ.).

[20] Boyko V., Dovbeshko G., Fesenko O., Gorelik V., Moiseenko V., Romanyuk V.,

Shvets T., Vodolazkyy P. New Optical Properties of Synthetic Opals Infiltrated by

DNA.

Molecular Crystals and Liquid Crystals

, 2011, vol. 535, iss. 1, pp. 30–41.

[21] Ito M., Kobayashi T., Ito Y., Hayashida T., Nii D., Umemura K., Homma Y.

Intense photoluminescence from dried double-stranded DNA and single-walled

carbon nanotube hybrid.

Applied Physics Letters

, 2014, vol. 104, iss. 4,

pp. 043102-1–043102-3.

[22] Kim Y.S., Lee U.R., Lee J.E., Cho M.J., Jung-Il Jin, Shin D.H., Choi Suk-Ho,

Choi D.H. Photoactive Deoxyribonucleic Acid (DNA) Bearing Carbazole Moieties

and Its Photoluminescence Behavior with Ir (III) Complex.

Molecular Crystals and

Liquid Crystals

, 2010, vol. 519, iss. 1, pp. 227–233.

[23] Murphy C.J., Brauns E.B., Gearheart L. Quantum dots as inorganic DNA-binding

proteins.

Material research society Processing

, 1996, vol. 452, pp. 597–601.

[24] Walaas E. Fluorescence of Adenine and Inosine Nucleotides.

Acta Chemica

Scandinavica

, 1963, vol. 17, pp. 461–463.

[25] B¨orresen H.CHR. On the luminescence properties of some purines and pyrimidines.

Acta Chemica Scandinavica

, 1963, vol. 17, pp. 921–929.

[26] Kumar A., Prasher P., Singh P. A fluorescent probe for estimation of adenosine

diphosphate and monitoring of glucose metabolism.

Organic & Biomolecular

Chemistry

, 2014, iss. 12, pp. 3071–3079.

[27] Jabs C.M., Ferrell W.J., Robb H.J. Plasma ADP levels: Direct determination with

luciferase luminescence using a biometer.

Clinical Biochemistry

, 1978, vol. 11, iss. 5,

pp. 190–193.

[28] Gorman M.W., Marble D.R., Ogimoto K., Feigl E.O. Measurement of adenine

nucleotides in plasma.

Luminescence

, 2003, vol. 18, iss. 3, pp. 173–181.

[29] Soffer B.H., McFarland B.B. Continuously tunable, narrow-band organic dye lasers.

Applied Physics Letters

, 1967, vol. 10, pp. 266–267.

32

ISSN 1812-3368. Вестник МГТУ им. Н.Э. Баумана. Сер. “Естественные науки”. 2016. № 2