Successive Strong Electrostatic Adsorptions of [RhCl6]3– on Tungstated-Ceria as an Original Approach to Preserve Rh Clusters From Sintering Under High-Temperature Reduction - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Journal of Physical Chemistry C Année : 2021

Successive Strong Electrostatic Adsorptions of [RhCl6]3– on Tungstated-Ceria as an Original Approach to Preserve Rh Clusters From Sintering Under High-Temperature Reduction

Résumé

Supported transition metal materials have been identified as ideal candidates for decades to catalyze various reactions of interest in the fields of hydrocarbon refining, energy and environmental catalysis. As the resources in transition metals on earth are known to be limited, it appears to be of the utmost interest to improve the efficiency of the catalytic materials in achieving the best use of these transition metals, in other words the highest metal accessibility when supported on oxide carriers. The present study demonstrates that the deposition of oxotungstates (with a W surface density of 1.3 W/nm2) coupled with the selective deposition of Rh on the CeO2 surface (via successive strong electrostatic adsorptions of an anionic [RhCl6]3- precursor) significantly reduces Rh sintering after reduction at 600 °C under H2 compared to a W-free CeO2 support. Oxotungstates are found to decrease the number of nucleation sites of CeO2 and, therefore, to act as spacers leading to the isolation of the nucleation sites. Oxotungstates may also act as a physical barrier preventing the sintering of the Rh metallic phase in the course of the reduction step at high temperature. Various morphologies of subnanometric Rh clusters exhibiting a limited atomicity (4 to 13 Rh atoms) were considered and most were found to be consistent with the very low coordination numbers of 4.0 ± 0.2 determined experimentally by EXAFS. The coordination numbers and the H2 chemisorption data led the conclusion that the Rh subnanometric clusters must be at the maximum two to three Rh layers thick and not larger than 5 Rh atoms. The benzene hydrogenation turnover frequencies at 50 °C were found to be similar on both the subnanometric Rh clusters and the 2.5 nm Rh nanoparticles (0.12 ± 0.3 s-1).
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Dates et versions

hal-03449235 , version 1 (25-11-2021)

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Jeffrey Miller, Neil Schweitzer, Mimoun Aouine, Philippe Vernoux, Abdelmalik Boufar, et al.. Successive Strong Electrostatic Adsorptions of [RhCl6]3– on Tungstated-Ceria as an Original Approach to Preserve Rh Clusters From Sintering Under High-Temperature Reduction. Journal of Physical Chemistry C, 2021, 125 (45), pp.25094-25111. ⟨10.1021/acs.jpcc.1c07644⟩. ⟨hal-03449235⟩
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