Nanoceria dissolution at acidic pH by breaking off the catalytic loop

Galyamin, Dmitry; Montaña Ernst, Lena Nerea; Fito Parera, Aina; Mira-Vidal, Guillem; Bastús, Neus G; Sabaté, Neus; Franco Puntes, Victor

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Nanoceria dissolution at acidic pH by breaking off the catalytic loop, 2022 (1.324Mb)

Author

Galyamin, Dmitry

Montaña Ernst, Lena Nerea

Franco Puntes, Victor

Date

2022-10-06

Permanent link

https://hdl.handle.net/11351/8467

DOI

10.1039/d2nr03586c

ISSN

2040-3372

WOS

000855391600001

PMID

36125109

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Abstract

This manuscript proves the reproducibility and robustness of cerium oxide nanoparticles, nanoceria, employed as a chemical reagent with oxidizing capacity (as an electron sink) at acidic pH. Unlike nanoceria multi-enzyme-mimetic capabilities at neutral or high pH, nanoceria can behave as a stoichiometric reagent at low pH where insoluble Ce4+ ions transform into soluble Ce3+ in the nanocrystal that finally dissolves. This behaviour can be interpreted as enzyme-like when nanoceria is in excess with respect to the substrate. Under these conditions, the Ce3+/Ce4+ ratio in the NPs can easily be estimated by titration with ferrocyanide. This procedure could become a rapid assessment tool for evaluating nanoceria capacity in liquid environments.

Keywords

Nanoceria; Cerium oxide nanoparticles

Bibliographic citation

Galyamin D, Ernst LM, Fitó-Parera A, Mira-Vidal G, Bastús NG, Sabaté N, et al. Nanoceria dissolution at acidic pH by breaking off the catalytic loop. Nanoscale. 2022 Oct 6;14(38):14223–30.