Título
Electrum, the gold–silver alloy, from the bulk scale to the nanoscale: synthesis, properties, and segregation rules
11627/500811627/5008
Autor
Guisbiers, Grégory
Mendoza Cruz, Rubén
Bazán Díaz, Lourdes
Velázquez Salazar, J. Jesús
Mendoza Perez, Rafael
Robledo Torres, José Antonio
Rodríguez López, José Luis
Montejano Carrizales, Juan Martín
Whetten, Robert L.
José Yacamán, Miguel
Resumen
"The alloy Au–Ag system is an important noble bimetallic phase, both historically (as “Electrum”) and now especially in nanotechnology, as it is applied in catalysis and nanomedicine. To comprehend the structural characteristics and the thermodynamic stability of this alloy, a knowledge of its phase diagram is required that considers explicitly its size and shape (morphology) dependence. However, as the experimental determination remains quite challenging at the nanoscale, theoretical guidance can provide significant advantages. Using a regular solution model within a nanothermodynamic approach to evaluate the size effect on all the parameters (melting temperature, melting enthalpy, and interaction parameters in both phases), the nanophase diagram is predicted. Besides an overall shift downward, there is a “tilting” effect on the solidus–liquidus curves for some particular shapes exposing the (100) and (110) facets (cube, rhombic dodecahedron, and cuboctahedron). The segregation calculation reveals the preferential presence of silver at the surface for all the polyhedral shapes considered, in excellent agreement with the latest transmission electron microscopy observations and energy dispersive spectroscopy analysis. By reviewing the nature of the surface segregated element of different bimetallic nanoalloys, two surface segregation rules, based on the melting temperatures and surface energies, are deduced. Finally, the optical properties of Au–Ag nanoparticles, calculated within the discrete dipole approximation, show the control that can be achieved in the tuning of the local surface plasmon resonance, depending of the alloy content, the chemical ordering, the morphology, the size of the nanoparticle, and the nature of the surrounding environment."
Fecha de publicación
2016Tipo de publicación
articleDOI
http://dx.doi.org/10.1021/acsnano.5b05755Área de conocimiento
QUÍMICAEditor
American Chemical SocietyPalabras clave
Aberration corrected electron microscopyNanothermodynamics
Noble metals
Optical properties
Phase diagram
Polyhedra
Surface segregation
Thermal properties