Exploring AuRh Nanoalloys: A Computational Perspective on the Formation and Physical Properties

Abstract: We studied the formation of AuRh nanoalloys (between 20–150 atoms) in the gas phase by means of Molecular Dynamics (MD) calculations, exploring three possible formation processes: one‐by‐one growth, coalescence, and nanodroplets annealing. As a general trend, we recover a predominance of Rh@Au core‐shell ordering over other chemical configurations. We identify new structural motifs with enhanced thermal stabilities. The physical features of those selected systems were studied at the Density Functional Theory (… Show more

“…The first‐principles approaches are the only one capable of predicting and understanding the appearance of plasmon resonances in ultrasmall alloy NPs. Besides, the predominance of core‐shell ordering over other chemical configurations emerges in this size range at the boundary between molecular and solid‐state behaviour, which is evidenced by the models and must be considered for the interpretation of the resulting optical properties [131] …”

“…Besides, the predominance of core-shell ordering over other chemical configurations emerges in this size range at the boundary between molecular and solid-state behaviour, which is evidenced by the models and must be considered for the interpretation of the resulting optical properties. [131] Recently, TD-DFT and TD-DFT + TB (tight binding) were used to compute the absorption spectra of AuÀ Ag clusters in the 10-10 2 atoms range. [132,133] They evaluated how the scalar-relativistic (SR) and the spin-orbit (SO) contribution affect the optical properties and the transition from molecular-like to metal-like (plasmonic) optical excitations.…”

“…Besides, the predominance of core‐shell ordering over other chemical configurations emerges in this size range at the boundary between molecular and solid‐state behaviour, which is evidenced by the models and must be considered for the interpretation of the resulting optical properties. [131] …”

Recent Developments in Plasmonic Alloy Nanoparticles: Synthesis, Modelling, Properties and Applications

“…The first‐principles approaches are the only one capable of predicting and understanding the appearance of plasmon resonances in ultrasmall alloy NPs. Besides, the predominance of core‐shell ordering over other chemical configurations emerges in this size range at the boundary between molecular and solid‐state behaviour, which is evidenced by the models and must be considered for the interpretation of the resulting optical properties [131] …”

“…Besides, the predominance of core-shell ordering over other chemical configurations emerges in this size range at the boundary between molecular and solid-state behaviour, which is evidenced by the models and must be considered for the interpretation of the resulting optical properties. [131] Recently, TD-DFT and TD-DFT + TB (tight binding) were used to compute the absorption spectra of AuÀ Ag clusters in the 10-10 2 atoms range. [132,133] They evaluated how the scalar-relativistic (SR) and the spin-orbit (SO) contribution affect the optical properties and the transition from molecular-like to metal-like (plasmonic) optical excitations.…”

“…Besides, the predominance of core‐shell ordering over other chemical configurations emerges in this size range at the boundary between molecular and solid‐state behaviour, which is evidenced by the models and must be considered for the interpretation of the resulting optical properties. [131] …”

Recent Developments in Plasmonic Alloy Nanoparticles: Synthesis, Modelling, Properties and Applications

“…Since the Au L 3 -edge corresponded to the electronic transition from 2p 3/2 to the vacant 5d state, the decrease of the intensity of the white line indicated an increase of the electron density of Au 5d orbitals, indicating that alloying between Au and Rh induced electron transfer from Rh atoms to Au atoms of a larger ionization energy. 60 Furthermore, XANES spectra of the Rh K-edge (Fig. 5b) revealed that the absorption intensity of NPs at near 23 230 eV increased with an increase in the Rh fraction in comparison with Rh foil.…”

Composition control of alloy nanoparticles consisting of bulk-immiscible Au and Rh metalsviaan ionic liquid/metal sputtering technique for improving their electrocatalytic activity

“…16 The prediction of the equilibrium morphology in metallic NPs has been performed by various computational approaches. [17][18][19][20][21][22][23][24] Such an example are Monte Carlo simulations based on semi-empirical potentials derived from the individual potentials calculated for each atom type by density functional theory. However, this approach is limited at a few thousand atoms and on a short timescale compared to most of the real world applications of nanoalloys.…”

Structural evolution under physical and chemical stimuli of metastable Au–Fe nanoalloys obtained by laser ablation in liquid