Synthesis and Electronic Structure of Bimetallic AuFe Nanocomposites

Au, Fe, and AuFe nanoparticles were obtained by metal vapor synthesis using acetone as the dispersion medium. The composition and electronic structure of the particles were studied by TEM, SEM, XPS, XANES, and EXAFS. The Au and Fe particles with average diameters of 5.3 and 1.8 nm, respectively, were obtained. According to X-ray diagnostic methods, gold was in the main Au-0 state, and the Au+ and Au3+ states are present in small amounts while iron existed as mixture of non-stoichiometric oxides with states close to Fe2+ and Fe3+. Bimetallic nanoparticles were solid solutions with a disordered structure and Au-FeO and Au-O-Fe bonds. A carbon-containing shell was detected for all types of metal particles. The obtained materials may be promising for the development of improved antimicrobial agents and new methods for treating cancer diseases.

Automated summary

In this study, Au, Fe, and AuFe nanoparticles were successfully synthesized using metal vapor synthesis with acetone as the dispersion medium. The composition and electronic structure of the particles were investigated, revealing that Au particles mainly existed in the Au-0 state, while Fe existed as non-stoichiometric oxides with states close to Fe2+ and Fe3+. The obtained materials show potential for the development of improved antimicrobial agents and new methods for treating cancer.