Long-term stability of Au nanoparticles on rutile-like Ti1-xFexO2 solid solutions for low-temperature CO oxidation

Mendez, Franklin; Herrera-Gonzalez, Alejandro; Morales, Antonio; Angeles-Chavez, Carlos; Garcia-Ruiz, Amado F; Albiter, Elbim; solis_casados, Dora Alicia; Bokhimi, Xim

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dc.contributor.author	Mendez, Franklin
dc.contributor.author	Herrera-Gonzalez, Alejandro
dc.contributor.author	Morales, Antonio
dc.contributor.author	Angeles-Chavez, Carlos
dc.contributor.author	Garcia-Ruiz, Amado F
dc.contributor.author	Albiter, Elbim
dc.contributor.author	solis_casados, Dora Alicia
dc.contributor.author	Bokhimi, Xim
dc.date.accessioned	2025-02-10T16:56:37Z
dc.date.available	2025-02-10T16:56:37Z
dc.date.issued	2025-01-09
dc.identifier.issn	0926-860X
dc.identifier.uri	http://hdl.handle.net/20.500.11799/142117
dc.description	articulo de colaboracion como coautor	es
dc.description.abstract	Rutile and Fe-doped rutile were synthesized at low temperatures to support Au NPs. Selected samples were characterized using XRD, SEM-EDS, HRTEM, STEM-HAADF, H2-TPR, XPS, FTIR and DRIFT spectroscopy of adsorbed CO molecules. To enrich the interpretation, we performed DFT calculation on clusters of rutile, Fe-doped rutile and metallic gold interacting with CO molecules. Catalysts were tested in the CO oxidation reaction, focusing on the roles of activation-reaction time, Au loading, Fe-modification, and long-term aging on performance. Au-based Fe-doped rutile exhibited superior activity compared to the unmodified rutile catalyst. Long-term aging resulted in catalyst deactivation, but reactivation under hydrogen restored the high activity levels. Fe incorporation into rutile promoted the stabilization of the Au NPs by increasing the number of oxygen atoms on the surface, which act as pinning centers. This stabilization prevented the mobility and growth of the Au NPs, improving their dispersion.	es
dc.language.iso	eng	es
dc.publisher	elsevier	es
dc.rights	openAccess	es
dc.rights.uri	http://creativecommons.org/licenses/by-nc/4.0	es
dc.subject	Au NPS	es
dc.subject	CO oxidation	es
dc.subject	density functional theory	es
dc.subject	Solid Solution	es
dc.subject.classification	BIOLOGÍA Y QUÍMICA	es
dc.title	Long-term stability of Au nanoparticles on rutile-like Ti1-xFexO2 solid solutions for low-temperature CO oxidation	es
dc.type	Artículo	es
dc.provenance	Científica	es
dc.road	Dorada	es
dc.organismo	Química	es
dc.ambito	Nacional	es
dc.cve.CenCos	20403	es
dc.relation.vol	692
dc.validacion.itt	No	es

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Título
Long-term stability of Au nanoparticles on rutile-like Ti1-xFexO2 solid solutions for low-temperature CO oxidation
Autor
Mendez, Franklin
Herrera-Gonzalez, Alejandro
Morales, Antonio
Angeles-Chavez, Carlos
Garcia-Ruiz, Amado F
Albiter, Elbim
solis_casados, Dora Alicia
Bokhimi, Xim
Fecha de publicación
2025-01-09
Editor
elsevier
Tipo de documento
Artículo
Palabras clave
Au NPS
CO oxidation
density functional theory
Solid Solution

Los documentos depositados en el Repositorio Institucional de la Universidad Autónoma del Estado de México se encuentran a disposición en Acceso Abierto bajo la licencia Creative Commons: Atribución-NoComercial-SinDerivar 4.0 Internacional (CC BY-NC-ND 4.0)

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