Synthesis and Characterization of Iron Silicon Boron (Fe5Si2B) and Iron Boride (Fe3B) Nanowires

Abstract

Single-crystal iron silicon boron (Fe₅Si₂B) and iron boride (Fe₃B) nanowires were synthesized by a chemical vapor deposition (CVD) method on either silicon dioxide (SiO₂) on silicon (Si) or Si substrates without introducing any catalysts. FeI₂ and BI₃ were used as precursors. The typical size of the nanowires is about 5−50 nm in width and 1−20 μm in length. Different kinds of Fe−Si−B and Fe−B structures were synthesized by adjusting the ratio of FeI₂ vapor to BI₃ vapor. Single-crystal Fe₅Si₂B nanowires formed when the FeI₂ sublimator temperature was kept in the range of 540−570 °C. If the FeI₂ sublimator temperature was adjusted in the range of 430−470 °C, single-crystal Fe₃B nanowires were produced. Fe₃B nanowires grow from polycrystalline Fe₅SiB₂ particles, while Fe₅Si₂B nanowires grow out of the Fe₅Si₂B layers, which are attached to triangle shaped FeSi particles. Both the ratio of FeI₂ vapor to BI₃ vapor and the formation of the particles (Fe₅SiB₂ particles for the growth of Fe₃B nanowires, FeSi particles for the growth of Fe₅Si₂B nanowires) are critical for the growth of Fe₃B and Fe₅Si₂B nanowires. The correct FeI₂ vapor to BI₃ vapor ratio assures the desired phase form, while the particles provide preferential sites for adsorption and nucleation of Fe₃B or Fe₅Si₂B molecules. Fe₃B or Fe₅Si₂B nanowires grow due to the preferred growth direction of .