Towards the surface hydroxyl species in CeO$_2$ nanoparticles

Understanding the complex chemistry of functional nanomaterials is of fundamental importance. Controlled synthesis and characterization at the atomic level is essential to gain deeper insight into the unique chemical reactivity exhibited by many nanomaterials. Cerium oxide nanoparticles have many in...

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Main Authors Plakhova, Tatiana V, Romanchuk, Anna Yu, Butorin, Sergei M, Konyukhova, Anastasia D, Egorov, Alexander V, Shiryaev, Andrey A, Baranchikov, Alexander E, Dorovatovskii, Pavel V, Huthwelker, Thomas, Gerber, Evgeny, Bauters, Stephen, Sozarukova, Madina M, Scheinost, Andreas C, Ivanov, Vladimir K, Kalmykov, Stepan N, Kvashnina, Kristina O
Format Journal Article
LanguageEnglish
Published 16.10.2020
Subjects
Physics - Chemical Physics
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Abstract Understanding the complex chemistry of functional nanomaterials is of fundamental importance. Controlled synthesis and characterization at the atomic level is essential to gain deeper insight into the unique chemical reactivity exhibited by many nanomaterials. Cerium oxide nanoparticles have many industrial and commercial applications,resulting from very strong catalytic, pro-and anti-oxidant activity. However, the identity of the active species and the chemical mechanisms imparted by nanoceria remain elusive, impeding the further development of new applications. Here, we explore the behavior of cerium oxide nanoparticles of different sizes at different temperatures and trace the electronic structure changes by state-of-the-art soft and hard X-ray experiments combined with computational methods. We confirm the absence of the Ce(III) oxidation state at the surface of CeO2nanoparticles, even for particles as small as 2 nm. Synchrotron X-ray absorption experiments at Ce L3and M5edges, combined with X-ray diffraction (XRD), high-resolution transmission electron microscopy (HRTEM) and small angle X-ray scattering (SAXS) and theoretical calculations demonstrate that in addition to the nanoceria charge stability, the formation of hydroxyl groups at the surface profoundly affects the chemical performance of these nanomaterials
AbstractList Understanding the complex chemistry of functional nanomaterials is of fundamental importance. Controlled synthesis and characterization at the atomic level is essential to gain deeper insight into the unique chemical reactivity exhibited by many nanomaterials. Cerium oxide nanoparticles have many industrial and commercial applications,resulting from very strong catalytic, pro-and anti-oxidant activity. However, the identity of the active species and the chemical mechanisms imparted by nanoceria remain elusive, impeding the further development of new applications. Here, we explore the behavior of cerium oxide nanoparticles of different sizes at different temperatures and trace the electronic structure changes by state-of-the-art soft and hard X-ray experiments combined with computational methods. We confirm the absence of the Ce(III) oxidation state at the surface of CeO2nanoparticles, even for particles as small as 2 nm. Synchrotron X-ray absorption experiments at Ce L3and M5edges, combined with X-ray diffraction (XRD), high-resolution transmission electron microscopy (HRTEM) and small angle X-ray scattering (SAXS) and theoretical calculations demonstrate that in addition to the nanoceria charge stability, the formation of hydroxyl groups at the surface profoundly affects the chemical performance of these nanomaterials
Author Bauters, Stephen
Kalmykov, Stepan N
Kvashnina, Kristina O
Sozarukova, Madina M
Ivanov, Vladimir K
Shiryaev, Andrey A
Gerber, Evgeny
Plakhova, Tatiana V
Egorov, Alexander V
Baranchikov, Alexander E
Scheinost, Andreas C
Konyukhova, Anastasia D
Huthwelker, Thomas
Romanchuk, Anna Yu
Dorovatovskii, Pavel V
Butorin, Sergei M
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BackLink https://doi.org/10.1039/c9nr06032d$$DView published paper (Access to full text may be restricted)
https://doi.org/10.48550/arXiv.2010.08206$$DView paper in arXiv
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Title Towards the surface hydroxyl species in CeO$_2$ nanoparticles
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