Skip to main content
Journal cover image

Ultrasound-mediated synthesis of nanoporous fluorite-structured high-entropy oxides toward noble metal stabilization

Publication ,  Journal Article
Okejiri, F; Fan, J; Huang, Z; Siniard, KM; Chi, M; Polo-Garzon, F; Yang, Z; Dai, S
Published in: iScience
May 20, 2022

High-entropy oxides (HEOs) are an emerging class of advanced ceramic materials capable of stabilizing ultrasmall nanoparticle catalysts. However, their fabrication still relies on high-temperature thermal treatment methodologies affording nonporous architectures. Herein, we report a facile synthesis of single-phase, fluorite-structured HEO nanocrystals via an ultrasound-mediated co-precipitation strategy under ambient conditions. Within 15 min of ultrasound exposure, high-quality fluorite-structured HEO (CeHfZrSnErOx) was generated as ultrasmall-sized particles with high surface area and high oxygen vacancy concentration. Taking advantage of these unique structural features, palladium was introduced and stabilized in the form of highly dispersed Pd nanoclusters within the CeHfZrSnErOx architecture. Neither phase segregation of the CeHfZrSnErOx support nor Pd sintering was observed under thermal treatment up to 900°C. The as-afforded Pd/CeHfZrSnErOx catalyst exhibits good catalytic performance toward CO oxidation, outperforming Pd/CeO2 of the same Pd loading, which highlights the inherent advantage of CeHfZrSnErOx as carrier support over traditional oxides.

Duke Scholars

Published In

iScience

DOI

EISSN

2589-0042

Publication Date

May 20, 2022

Volume

25

Issue

5
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Okejiri, F., Fan, J., Huang, Z., Siniard, K. M., Chi, M., Polo-Garzon, F., … Dai, S. (2022). Ultrasound-mediated synthesis of nanoporous fluorite-structured high-entropy oxides toward noble metal stabilization. IScience, 25(5). https://doi.org/10.1016/j.isci.2022.104214
Okejiri, F., J. Fan, Z. Huang, K. M. Siniard, M. Chi, F. Polo-Garzon, Z. Yang, and S. Dai. “Ultrasound-mediated synthesis of nanoporous fluorite-structured high-entropy oxides toward noble metal stabilization.” IScience 25, no. 5 (May 20, 2022). https://doi.org/10.1016/j.isci.2022.104214.
Okejiri F, Fan J, Huang Z, Siniard KM, Chi M, Polo-Garzon F, et al. Ultrasound-mediated synthesis of nanoporous fluorite-structured high-entropy oxides toward noble metal stabilization. iScience. 2022 May 20;25(5).
Okejiri, F., et al. “Ultrasound-mediated synthesis of nanoporous fluorite-structured high-entropy oxides toward noble metal stabilization.” IScience, vol. 25, no. 5, May 2022. Scopus, doi:10.1016/j.isci.2022.104214.
Okejiri F, Fan J, Huang Z, Siniard KM, Chi M, Polo-Garzon F, Yang Z, Dai S. Ultrasound-mediated synthesis of nanoporous fluorite-structured high-entropy oxides toward noble metal stabilization. iScience. 2022 May 20;25(5).
Journal cover image

Published In

iScience

DOI

EISSN

2589-0042

Publication Date

May 20, 2022

Volume

25

Issue

5