Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )

Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )

Abstract The redox performance of CeO2 − x nanocrystals (nanoceria) is always accompanied by the switching of cerium oxidation state between Ce3+ and Ce4+. We monitored Ce3+ → Ce4+ oxidation of nanoceria stimulated by oxidant in aqueous colloidal solutions controlling the luminescence of Ce3+ ions l...

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Main Authors: Yuri Malyukin, Vladimir Klochkov, Pavel Maksimchuk, Vladyslav Seminko, Nikolai Spivak
Format: Article
Language:English
Published: SpringerOpen 2017-10-01
Series:Nanoscale Research Letters
Subjects:
Oxygen vacancies
Clusters
Luminescence
Antioxidants
Online Access:http://link.springer.com/article/10.1186/s11671-017-2339-7
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spelling doaj-0eca78f989944eaf8756505316eb815a2020-11-25T01:39:11ZengSpringerOpenNanoscale Research Letters1931-75731556-276X2017-10-011211710.1186/s11671-017-2339-7Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )Yuri Malyukin0Vladimir Klochkov1Pavel Maksimchuk2Vladyslav Seminko3Nikolai Spivak4Institute for Scintillation Materials, National Academy of Sciences of UkraineInstitute for Scintillation Materials, National Academy of Sciences of UkraineInstitute for Scintillation Materials, National Academy of Sciences of UkraineInstitute for Scintillation Materials, National Academy of Sciences of UkraineZabolotny Institute of Microbiology and Virology, National Academy of Sciences of UkraineAbstract The redox performance of CeO2 − x nanocrystals (nanoceria) is always accompanied by the switching of cerium oxidation state between Ce3+ and Ce4+. We monitored Ce3+ → Ce4+ oxidation of nanoceria stimulated by oxidant in aqueous colloidal solutions controlling the luminescence of Ce3+ ions located at different distances from nanoceria surface. The observed Ce3+ luminescence changes indicate that Ce3+ → Ce4+ reaction develops inside nanoceria being triggered by the diffusing oxygen originated from the water splitting on oxidized nanoceria surface. We present the first observation of the pronounced oscillations of Ce3+ luminescence intensity arising from Ce3+ ↔ Ce4+ reversible switching. This threshold effect is to be driven by uptaking and releasing oxygen by nanoceria, when the concentration of oxygen vacancies in nanoceria lattice, oxidant concentration in colloidal solution, and temperature reach certain critical values. So, the ability of nanoceria to uptake and release oxygen depending on the environmental redox conditions really makes it the self-sufficient eternal antioxidant.http://link.springer.com/article/10.1186/s11671-017-2339-7Oxygen vacanciesClustersLuminescenceAntioxidants
collection DOAJ
language English
format Article
sources DOAJ
author Yuri Malyukin
Vladimir Klochkov
Pavel Maksimchuk
Vladyslav Seminko
Nikolai Spivak
spellingShingle Yuri Malyukin
Vladimir Klochkov
Pavel Maksimchuk
Vladyslav Seminko
Nikolai Spivak
Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )
Nanoscale Research Letters
Oxygen vacancies
Clusters
Luminescence
Antioxidants
author_facet Yuri Malyukin
Vladimir Klochkov
Pavel Maksimchuk
Vladyslav Seminko
Nikolai Spivak
author_sort Yuri Malyukin
title Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )
title_short Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )
title_full Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )
title_fullStr Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )
title_full_unstemmed Oscillations of Cerium Oxidation State Driven by Oxygen Diffusion in Colloidal Nanoceria (CeO2 − x )
title_sort oscillations of cerium oxidation state driven by oxygen diffusion in colloidal nanoceria (ceo2 − x )
publisher SpringerOpen
series Nanoscale Research Letters
issn 1931-7573
1556-276X
publishDate 2017-10-01
description Abstract The redox performance of CeO2 − x nanocrystals (nanoceria) is always accompanied by the switching of cerium oxidation state between Ce3+ and Ce4+. We monitored Ce3+ → Ce4+ oxidation of nanoceria stimulated by oxidant in aqueous colloidal solutions controlling the luminescence of Ce3+ ions located at different distances from nanoceria surface. The observed Ce3+ luminescence changes indicate that Ce3+ → Ce4+ reaction develops inside nanoceria being triggered by the diffusing oxygen originated from the water splitting on oxidized nanoceria surface. We present the first observation of the pronounced oscillations of Ce3+ luminescence intensity arising from Ce3+ ↔ Ce4+ reversible switching. This threshold effect is to be driven by uptaking and releasing oxygen by nanoceria, when the concentration of oxygen vacancies in nanoceria lattice, oxidant concentration in colloidal solution, and temperature reach certain critical values. So, the ability of nanoceria to uptake and release oxygen depending on the environmental redox conditions really makes it the self-sufficient eternal antioxidant.
topic Oxygen vacancies
Clusters
Luminescence
Antioxidants
url http://link.springer.com/article/10.1186/s11671-017-2339-7
work_keys_str_mv AT yurimalyukin oscillationsofceriumoxidationstatedrivenbyoxygendiffusionincolloidalnanoceriaceo2x
AT vladimirklochkov oscillationsofceriumoxidationstatedrivenbyoxygendiffusionincolloidalnanoceriaceo2x
AT pavelmaksimchuk oscillationsofceriumoxidationstatedrivenbyoxygendiffusionincolloidalnanoceriaceo2x
AT vladyslavseminko oscillationsofceriumoxidationstatedrivenbyoxygendiffusionincolloidalnanoceriaceo2x
AT nikolaispivak oscillationsofceriumoxidationstatedrivenbyoxygendiffusionincolloidalnanoceriaceo2x
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