Thermally Activated Sliding of C60 on Gold

Pierno, M.; Bruschi, L.; Paolicelli, G.; Di Bona, A.; Benedetti, S.; Manini, N.; Vanossi, A.; Mistura, G.

doi:10.1021/acsomega.5c02993

Gold nanoclusters are known to slide easily on a graphite surface. In this study, we confirm the slipperiness of the gold-carbon interface by studying the sliding behavior of fullerene adsorbates on gold by using a quartz crystal microbalance (QCM). More precisely, we transfer high-quality gold electrodes deposited on an atomically flat mica substrate to the QCM. By means of an effusion cell, we deposit C60 molecules on the QCM gold electrode kept in ultrahigh vacuum. We observe the pinning of the fullerene adsorbates at room temperature. As the temperature increases above 320 K, the fullerene adsorbates begin to slide. This thermally activated sliding is explained in terms of a simple diffusive model.

Thermally Activated Sliding of C60 on Gold / M. Pierno, L. Bruschi, G. Paolicelli, A. Di Bona, S. Benedetti, N. Manini, A. Vanossi, G. Mistura. - In: ACS OMEGA. - ISSN 2470-1343. - 10:24(2025), pp. 26071-26078. [10.1021/acsomega.5c02993]

Thermally Activated Sliding of C60 on Gold

Pierno, Matteo;Bruschi, Lorenzo;Paolicelli, Guido;di Bona, Alessandro;Benedetti, Stefania;N. Manini;Vanossi, Andrea;Mistura, Giampaolo

2025

Abstract

Gold nanoclusters are known to slide easily on a graphite surface. In this study, we confirm the slipperiness of the gold-carbon interface by studying the sliding behavior of fullerene adsorbates on gold by using a quartz crystal microbalance (QCM). More precisely, we transfer high-quality gold electrodes deposited on an atomically flat mica substrate to the QCM. By means of an effusion cell, we deposit C60 molecules on the QCM gold electrode kept in ultrahigh vacuum. We observe the pinning of the fullerene adsorbates at room temperature. As the temperature increases above 320 K, the fullerene adsorbates begin to slide. This thermally activated sliding is explained in terms of a simple diffusive model.

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	Settori scientifico-disciplinari dell'articolo (validi dal 09/05/2024)
	
				Settore PHYS-03/A - Fisica sperimentale della materia e applicazioni
Settore PHYS-04/A - Fisica teorica della materia, modelli, metodi matematici e applicazioni
			
	Data di pubblicazione
	
				2025
			
	Data ahead of print o data di stampa
	
				9-giu-2025
			
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				ACS OMEGA
			
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				https://dx.doi.org/10.1021/acsomega.5c02993
			
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1173563

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