Kang, Yicui; João, Simão M.; Lin, Rui; Liu, Kang; Zhu, Li; Fu, Junwei; Cheong, Weng-Chon; Lee, Seunghoon; Frank, Kilian; Nickel, Bert; Liu, Min; Lischner, Johannes; Cortés, Emiliano (2024): Effect of crystal facets in plasmonic catalysis. Nature Communications, 15 (1). ISSN 2041-1723
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Abstract
While the role of crystal facets is well known in traditional heterogeneous catalysis, this effect has not yet been thoroughly studied in plasmon-assisted catalysis, where attention has primarily focused on plasmon-derived mechanisms. Here, we investigate plasmon-assisted electrocatalytic CO2 reduction using different shapes of plasmonic Au nanoparticles - nanocube (NC), rhombic dodecahedron (RD), and octahedron (OC) - exposing {100}, {110}, and {111} facets, respectively. Upon plasmon excitation, Au OCs doubled CO Faradaic efficiency (FECO) and tripled CO partial current density (jCO) compared to a dark condition, with NCs also improving under illumination. In contrast, Au RDs maintained consistent performance irrespective of light exposure, suggesting minimal influence of light on the reaction. Temperature experiments ruled out heat as the main factor to explain such differences. Atomistic simulations and electromagnetic modeling revealed higher hot carrier abundance and electric field enhancement on Au OCs and NCs than RDs. These effects now dominate the reaction landscape over the crystal facets, thus shifting the reaction sites when comparing dark and plasmon-activated processes. Plasmon-assisted H2 evolution reaction experiments also support these findings. The dominance of low-coordinated sites over facets in plasmonic catalysis suggests key insights for designing efficient photocatalysts for energy conversion and carbon neutralization.
Dokumententyp: | Artikel (LMU) |
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Organisationseinheit (Fakultäten): | 17 Physik |
DFG-Fachsystematik der Wissenschaftsbereiche: | Naturwissenschaften |
Veröffentlichungsdatum: | 25. Sep 2024 12:25 |
Letzte Änderung: | 25. Sep 2024 12:25 |
URI: | https://oa-fund.ub.uni-muenchen.de/id/eprint/1479 |
DFG: | Gefördert durch die Deutsche Forschungsgemeinschaft (DFG) - 491502892 |