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Proceedings Paper

Fullerene C60 and graphene photosensibiles for photodynamic virus inactivation
Author(s): I. Belousova; A. Hvorostovsky; V. Kiselev; V. Zarubaev; O. Kiselev; L. Piotrovsky; P. Anfimov; T. Krisko; T. Muraviova; V. Rylkov; A. Starodubzev; A. Sirotkin; A. Grishkanich; I. Kudashev; A. Kancer; M. Kustikova; E. Bykovskaya; A. Mayurova; A. Stupnikov; J. Ruzankina; M. Afanasyev; N. Lukyanov; D. Redka; N. Paklinov
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Paper Abstract

A solid-phase photosensitizer based on aggregated C60 fullerene and graphene oxide for photodynamic inactivation of pathogens in biological fluids was studied. The most promising technologies of inactivation include the photodynamic effect, which consists in the inactivation of infectious agents by active oxygen forms (including singlet oxygen), formed when light is activated by the photosensitizer introduced into the plasma. Research shows features of solid-phase systems based on graphene and fullerene C60 oxide, which is a combination of an effective inactivating pathogens (for example, influenza viruses) reactive oxygen species formed upon irradiation of the photosensitizer in aqueous and biological fluids, a high photostability fullerene coatings and the possibility of full recovery photosensitizer from the biological environment after the photodynamic action.

Paper Details

Date Published: 13 February 2018
PDF: 9 pages
Proc. SPIE 10492, Optical Interactions with Tissue and Cells XXIX, 1049215 (13 February 2018); doi: 10.1117/12.2294593
Show Author Affiliations
I. Belousova, ITMO Univ. (Russian Federation)
The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
A. Hvorostovsky, ITMO Univ. (Russian Federation)
Saint Petersburg State Electrotechnical Univ. (Russian Federation)
LLC Lazertrek (Russian Federation)
V. Kiselev, ITMO Univ. (Russian Federation)
The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
V. Zarubaev, The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
O. Kiselev, The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
L. Piotrovsky, The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
Research Institute of Influenza (Russian Federation)
P. Anfimov, The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
Research Institute of Influenza (Russian Federation)
T. Krisko, The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
Research Institute of Influenza (Russian Federation)
T. Muraviova, ITMO Univ. (Russian Federation)
Research Institute of Influenza (Russian Federation)
V. Rylkov, ITMO Univ. (Russian Federation)
Research Institute of Influenza (Russian Federation)
A. Starodubzev, The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
Research Institute of Influenza (Russian Federation)
A. Sirotkin, The State Optical Institute, S.I. Vavilov GOI (Russian Federation)
Research Institute of Influenza (Russian Federation)
A. Grishkanich, ITMO Univ. (Russian Federation)
St. Petersburg State Electrotechnical Univ. (Russian Federation)
LLC Lazertrek (Russian Federation)
I. Kudashev, LLC Lazertrek (Russian Federation)
A. Kancer, ITMO Univ. (Russian Federation)
M. Kustikova, ITMO Univ. (Russian Federation)
E. Bykovskaya, ITMO Univ. (Russian Federation)
A. Mayurova, ITMO Univ. (Russian Federation)
A. Stupnikov, ITMO Univ. (Russian Federation)
J. Ruzankina, ITMO Univ. (Russian Federation)
M. Afanasyev, Research Institute of Influenza (Russian Federation)
N. Lukyanov, ITMO Univ. (Russian Federation)
D. Redka, Saint Petersburg Electrotechnical Univ. (Russian Federation)
LLC Lazertrek (Russian Federation)
N. Paklinov, Tyumen Industrial Univ. (Russian Federation)
LLC Lazertrek (Russian Federation)


Published in SPIE Proceedings Vol. 10492:
Optical Interactions with Tissue and Cells XXIX
E. Duco Jansen; Hope Thomas Beier, Editor(s)

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