info:eu-repo/semantics/article
Dynamics of RS-(Au-SR)x staple motifs on metal surfaces: From nanoclusters to 2D surfaces
Fecha
2020-02-06Registro en:
Carro, Pilar; Pensa, Evangelina; Albrecht, Tim; Salvarezza, Roberto Carlos; Dynamics of RS-(Au-SR)x staple motifs on metal surfaces: From nanoclusters to 2D surfaces; American Chemical Society; Journal of Physical Chemistry C; 124; 9; 06-2-2020; 5452-5459
1932-7447
1932-7455
CONICET Digital
CONICET
Autor
Carro, Pilar
Pensa, Evangelina
Albrecht, Tim
Salvarezza, Roberto Carlos
Resumen
Limited stability of metal nanoparticles hinders their long-term uses and applications. For metal nanoclusters, this is even more critical, as physicochemical properties rely on the structure of only a few hundred atoms. Here, we study the irreversible change that Au25(SR)18 suffers upon interaction with 2D metal surfaces. Experimental and density functional theory results allow us to identify the triggering factors of the decomposition process. Our thermodynamic-based approach can be extended to other metal nanocluster/substrates, turning it into a useful tool for predicting the nanoscale stability of these systems.