Operating interfaces to synthesize L10-FePt@Bi-rich nanoparticles by modifying the heating process

A facile strategy to operate interfaces when synthesizing L1(0)-FePt@Bi-rich nanoparticles (NPs) has been proposed. Two interfaces are indispensable to obtain the high ordering L1(0)-FePt structure. One is the mismatched interfaces between the initial gamma-PtBi2 nuclei and the disordered fcc-FePt phase. The other is the in situ grown coherent interfaces between the L1(0)-FePt and Bi-rich phases. Increasing the heating rates when the temperature rises from 120 degrees C to 310 degrees C benefits the formation of mismatched interfaces and improves the uniformity of phases and composition in NPs. Reducing the heating rate at higher temperature ensures sufficient time for Bi to diffuse across the coherent interface, which facilitates the disorder-order transition of L1(0)-FePt NPs. This study provides a new perspective on operating interfaces during the wet-chemical synthesis process.

Automated summary

A facile strategy to operate interfaces during the synthesis of L1(0)-FePt@Bi-rich nanoparticles has been proposed. The study demonstrates that controlling the heating rates can influence the formation of different interfaces and improve the uniformity of phases and composition in the nanoparticles.