Laser ablation synthesis of metal¿doped gold clusters from composites of gold nanoparticles with metal organic frameworks
Date
2021Abstract
Metal-doped gold clusters, mainly cages, are receiving rapidly increasing attention due to their
tunable catalytic properties. Their synthesis is mostly based on complex procedures, including several
steps. In this work, via adsorption of gold nanoparticles (AuNPs) from aqueous solution to MOF (metal
organic frameworks) of M=Co, Cu, Ni, and Zn with various linkers the {AuNPs, MOF} composites
were prepared. These composites were used for laser ablation synthesis (LAS) using a common mass
spectrometer. Several series of positively and negatively charged AumMn
+/− clusters were observed in
mass spectra and their stoichiometry (m= 1–35, n= 1–5) was determined. For each dopant (Co, Cu, Ni,
and Zn) ~ 50 diferent clusters were identifed in positive, as well as in negative ion modes. About 100
of these clusters were proposed to be endohedral metal-doped gold cages (for m> 12). The developed
approach represents a simple procedure for generating metal-doped gold clusters or endohedral
metal-doped gold cages materials with potential applications in medicine and/or electronics