One-step fabrication of Fe2O3/Ag core–shell composite nanoparticles at low temperature

The Fe2O3/Ag core–shell composite nanoparticles were successfully prepared via a simple method at low temperature. X-ray diffraction data revealed the formation of core–shell composite nanoparticles, with Fe2O3 as the core and silver as the shell. The results from the transmission electron microscopy and scan electron microscopy further indicated that the composite nanoparticles were spherical with a core diameter and shell thickness of 26.0 nm and 13.5 nm, respectively. Magnetic measurements showed that the composite nanoparticles exhibited a typical ferromagnetic behavior, a specific saturation magnetization of 0.95 emu/g and an intrinsic coercivity of 104.0 Oe at room temperature. For a standard two-probe analysis at room temperature, the composite nanoparticles showed a typical conductive behavior and its conductivity was about 3.41 S/m. Moreover, this present synthesis method of Fe2O3/Ag core–shell composite nanoparticles shows an easy processing and does not need high-temperature calcining to attain the final product, which can be applied in a variety of areas, including catalysis, medicine, photonics, and new functional device assemblies.

Graphical AbstractFigure optionsDownload full-size imageDownload as PowerPoint slideResearch Highlights► Fe2O3/Ag core-shell composite nanoparticles were successfully prepared via a simple method. ► This present synthesis method shows an easy processing and does not need high-temperature calcining. ► The composite particles exhibit a specific saturation magnetization of 0.95emu/g and an intrinsic coercivity of 104.0Oe. ► The composite nanoparticles show a typical conductive behavior and its conductivity was about 3.41S/m.