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Singlet Oxygen Generaion via Silver Nanoparticles UV-Photoexcitation. / Ershov, K. S.; Valiulin, S. V.; Pyryaeva, A. P.

In: Russian Journal of Physical Chemistry B, Vol. 18, No. 1, 02.2024, p. 289-295.

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Ershov KS, Valiulin SV, Pyryaeva AP. Singlet Oxygen Generaion via Silver Nanoparticles UV-Photoexcitation. Russian Journal of Physical Chemistry B. 2024 Feb;18(1):289-295. doi: 10.1134/S199079312401024X

Author

Ershov, K. S. ; Valiulin, S. V. ; Pyryaeva, A. P. / Singlet Oxygen Generaion via Silver Nanoparticles UV-Photoexcitation. In: Russian Journal of Physical Chemistry B. 2024 ; Vol. 18, No. 1. pp. 289-295.

BibTeX

@article{ae2a8892115f40de9a6e38977c059c18,
title = "Singlet Oxygen Generaion via Silver Nanoparticles UV-Photoexcitation",
abstract = "The NIR-luminescence of silver nanoparticle suspension stabilized in distilled water has been investigated by photoexcitation of surface plasmon resonance (SPR). The observed short-living luminescence with the spectral maximum at 1300 nm is attributed to the singlet oxygen molecules luminescence. The singlet oxygen generation is assumed to pass in two stages as a result of three-photon process. First the one-photon SPR excitation of silver nanoparticle is occurred and leads to superoxide anion generation on the nanoparticle surface. Next the superoxide anion absorbs two more photons of the same laser pulse resulting in electron photodetachment with singlet oxygen formation. During a long period of UV-irradiation the studying suspension ceases to be photostable and sedimentation occurs. The sedimentation may be related to disturbance of nanoparticles steric stabilization resulting in more efficient superoxide anion adsorption on nanoparticles surface with silver oxide formation.",
keywords = "Argovit, luminescence, photoexcitation, silver nanoparticles, singlet oxygen, surface plasmon resonance",
author = "Ershov, {K. S.} and Valiulin, {S. V.} and Pyryaeva, {A. P.}",
note = "The study was financially supported by the Russian Science Foundation (grant no. 22-23-00921).",
year = "2024",
month = feb,
doi = "10.1134/S199079312401024X",
language = "English",
volume = "18",
pages = "289--295",
journal = "Russian Journal of Physical Chemistry B",
issn = "1990-7931",
publisher = "PLEIADES PUBLISHING INC",
number = "1",

}

RIS

TY - JOUR

T1 - Singlet Oxygen Generaion via Silver Nanoparticles UV-Photoexcitation

AU - Ershov, K. S.

AU - Valiulin, S. V.

AU - Pyryaeva, A. P.

N1 - The study was financially supported by the Russian Science Foundation (grant no. 22-23-00921).

PY - 2024/2

Y1 - 2024/2

N2 - The NIR-luminescence of silver nanoparticle suspension stabilized in distilled water has been investigated by photoexcitation of surface plasmon resonance (SPR). The observed short-living luminescence with the spectral maximum at 1300 nm is attributed to the singlet oxygen molecules luminescence. The singlet oxygen generation is assumed to pass in two stages as a result of three-photon process. First the one-photon SPR excitation of silver nanoparticle is occurred and leads to superoxide anion generation on the nanoparticle surface. Next the superoxide anion absorbs two more photons of the same laser pulse resulting in electron photodetachment with singlet oxygen formation. During a long period of UV-irradiation the studying suspension ceases to be photostable and sedimentation occurs. The sedimentation may be related to disturbance of nanoparticles steric stabilization resulting in more efficient superoxide anion adsorption on nanoparticles surface with silver oxide formation.

AB - The NIR-luminescence of silver nanoparticle suspension stabilized in distilled water has been investigated by photoexcitation of surface plasmon resonance (SPR). The observed short-living luminescence with the spectral maximum at 1300 nm is attributed to the singlet oxygen molecules luminescence. The singlet oxygen generation is assumed to pass in two stages as a result of three-photon process. First the one-photon SPR excitation of silver nanoparticle is occurred and leads to superoxide anion generation on the nanoparticle surface. Next the superoxide anion absorbs two more photons of the same laser pulse resulting in electron photodetachment with singlet oxygen formation. During a long period of UV-irradiation the studying suspension ceases to be photostable and sedimentation occurs. The sedimentation may be related to disturbance of nanoparticles steric stabilization resulting in more efficient superoxide anion adsorption on nanoparticles surface with silver oxide formation.

KW - Argovit

KW - luminescence

KW - photoexcitation

KW - silver nanoparticles

KW - singlet oxygen

KW - surface plasmon resonance

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85189499324&origin=inward&txGid=7bbf811473018a042a520270c166d135

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001197827200006

UR - https://www.mendeley.com/catalogue/ae13b26f-c17b-3e2c-93a8-3fa7996d2ea5/

U2 - 10.1134/S199079312401024X

DO - 10.1134/S199079312401024X

M3 - Article

VL - 18

SP - 289

EP - 295

JO - Russian Journal of Physical Chemistry B

JF - Russian Journal of Physical Chemistry B

SN - 1990-7931

IS - 1

ER -

ID: 61203126