Atomic Undercoordination in Ag Islands on Ru(0001) Grown via Size-Selected Cluster Deposition: An Experimental and Theoretical High-Resolution Core-Level Photoemission Study

The possibility of depositing precisely mass-selected Ag clusters (Ag1, Ag3, and Ag7) on Ru(0001) was instrumental in determining the importance of the in-plane coordination number (CN) and allowed us to establish a linear dependence of the Ag 3d5/2 core-level shift on CN. The fast cluster surface d...

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Published in:Journal of physical chemistry. C 2021-05, Vol.125 (17), p.9556-9563
Main Authors: Sbuelz, Luca, Loi, Federico, Pozzo, Monica, Bignardi, Luca, Nicolini, Eugenio, Lacovig, Paolo, Tosi, Ezequiel, Lizzit, Silvano, Kartouzian, Aras, Heiz, Ueli, Alfé, Dario, Baraldi, Alessandro
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C: Physical Properties of Materials and Interfaces
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cited_by cdi_FETCH-LOGICAL-a476t-b0914730d84149874a3b501d3717fb7907edf58b27bb543047397bf1d09904ab3
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creator Sbuelz, Luca
Loi, Federico
Pozzo, Monica
Bignardi, Luca
Nicolini, Eugenio
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Tosi, Ezequiel
Lizzit, Silvano
Kartouzian, Aras
Heiz, Ueli
Alfé, Dario
Baraldi, Alessandro
description The possibility of depositing precisely mass-selected Ag clusters (Ag1, Ag3, and Ag7) on Ru(0001) was instrumental in determining the importance of the in-plane coordination number (CN) and allowed us to establish a linear dependence of the Ag 3d5/2 core-level shift on CN. The fast cluster surface diffusion at room temperature, caused by the low interaction between silver and ruthenium, leads to the formation of islands with a low degree of ordering, as evidenced by the high density of low-coordinated atomic configurations, in particular CN = 4 and 5. On the contrary, islands formed upon Ag7 deposition show a higher density of atoms with CN = 6, thus indicating the formation of islands with a close-packed atomic arrangement. This combined experimental and theoretical approach, when applied to clusters of different elements, offers the perspective to reveal nonequivalent local configurations in two-dimensional (2D) materials grown using different building blocks, with potential implications in understanding electronic and reactivity properties at the atomic level.
doi_str_mv 10.1021/acs.jpcc.1c02327
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The fast cluster surface diffusion at room temperature, caused by the low interaction between silver and ruthenium, leads to the formation of islands with a low degree of ordering, as evidenced by the high density of low-coordinated atomic configurations, in particular CN = 4 and 5. On the contrary, islands formed upon Ag7 deposition show a higher density of atoms with CN = 6, thus indicating the formation of islands with a close-packed atomic arrangement. 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title Atomic Undercoordination in Ag Islands on Ru(0001) Grown via Size-Selected Cluster Deposition: An Experimental and Theoretical High-Resolution Core-Level Photoemission Study
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