Nanodiamond–Coumarin Complexes: Spectral-Luminescence Properties and Interaction with Macrophages

Nanodiamond–Coumarin Complexes: Spectral-Luminescence Properties and Interaction with Macrophages

Model studies on Coumarin 343–detonation nanodiamond complexes are described. The complexation of coumarin molecules with diamond nanoparticles due to covalent bonding leads to a considerable change in their spectral-luminescence properties, which makes it possible to distinguish between the behavio...

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Bibliographic Details
Published in:Russian journal of physical chemistry. B Vol. 13; no. 6; pp. 942 - 946
Main Authors: Berdnikova, N. G., Dontsov, A. E., Erokhina, M. V., Zak, P. P., Lapina, V. A., Masyutin, A. G., Menshov, V. A., Naumov, V. V., Onishchenko, G. E., Pavich, T. A., Pershukevich, P. P., Sakina, N. L., Trofimov, A. V., Trofimova, N. N., Tsaplev, Yu. B., Yablonskaya, O. I.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-11-2019
Springer Nature B.V
Subjects:
Chemical Physics of Biological Processes
Chemistry
Chemistry and Materials Science
Coumarin
Detonation
Diamonds
Leukemia
Luminescence
Macrophages
Nanoparticles
Nanostructure
Optical properties
Physical Chemistry
Reagents
Coumarin 343
cell cultures
nanodiamonds
spectral-luminescence properties
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Summary:Model studies on Coumarin 343–detonation nanodiamond complexes are described. The complexation of coumarin molecules with diamond nanoparticles due to covalent bonding leads to a considerable change in their spectral-luminescence properties, which makes it possible to distinguish between the behaviors of a free dye and a bound luminophore in the studied objects, in particular, in cell cultures. Experiments with an acute monocytic human leukemia culture show that the studied diamond nanocomplexes are easily captured by the cells and visualized in them; therefore, these complexes can be used to transport photocontrolled reagents and, ultimately, new drugs.
ISSN:1990-7931
1990-7923
DOI:10.1134/S1990793119060150