Nanoscale wetting controls reactive Pd ensembles in synthesis of dilute PdAu alloy catalysts

Publication date

2025-07-08

Authors

Lim, Kang Rui Garrick
Owen, Cameron J
Kaiser, Selina K
Routh, Prahlad K
Mendoza, Montserrat
Park, Kyoo-Chul K
Kim, Taek-Seung
Garg, Sadhya
Gardener, Jules A
Russotto, Lorenzo

Editors

Advisors

Supervisors

Document Type

Article
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License

cc_by_nc_nd

Abstract

The performance of bimetallic dilute alloy catalysts is largely determined by the size of minority metal ensembles on the nanoparticle surface. By analyzing the synthesis of catalysts comprising Pd8Au92 nanoparticles supported on silica using surface-sensitive techniques, we report that whether Pd overgrowth occurs before or after Au nanoparticle deposition onto the support controls the surface Pd ensemble size and abundance. These differences in Pd ensembles influence catalytic reactivity in H2-D2 isotope exchange and benzaldehyde hydrogenation, which, in correlation with theoretical calculations, is used to elucidate the active site(s) in each reaction. To clarify how the synthetic sequence controls the formation of Pd ensembles, we combine numerical wetting calculations and molecular dynamics simulations (with a machine-learned force field) to visualize Pd deposition and migration on the nanoparticle surface, respectively. Our results suggest that the nanoparticle-support interface restricts nanoparticle accessibility to Pd deposition, which consequently controls the Pd ensemble size, illustrating the critical role of nanoscale wetting phenomena during bimetallic catalyst preparation.

Keywords

General Chemistry, General Biochemistry,Genetics and Molecular Biology, General Physics and Astronomy

Citation

Lim, K R G, Owen, C J, Kaiser, S K, Routh, P K, Mendoza, M, Park, K-C K, Kim, T-S, Garg, S, Gardener, J A, Russotto, L, O'Connor, C R, Bijl, M, Aizenberg, M, Reece, C, Lee, J D, Frenkel, A I, Kozinsky, B & Aizenberg, J 2025, 'Nanoscale wetting controls reactive Pd ensembles in synthesis of dilute PdAu alloy catalysts', Nature Communications, vol. 16, no. 1, 6293. https://doi.org/10.1038/s41467-025-61540-4