α-Fe2O3 nano-platelets prepared by mechanochemical/thermal processing

A new method to prepare plate-shaped Fe2O3 nanoparticles was investigated and their magnetic properties were characterised. First, Fe2O3 nanoparticles of ~ 6 nm in diameter were synthesised by mechanochemical processing, involving the solid-state exchange reaction Fe2(SO4)3 + 3 Na2CO3 → Fe2(CO3)3 + 3 Na2SO4 → Fe2O3 + 3 Na2SO4 +  3 CO2 (g) effected by high-energy ball milling and subsequent heat treatment at 400 °C. Next, nano-platelets were grown from the nanoparticles by further heat treatment in a salt matrix at 700 °C. Removal of the salt and by-product phases after heat treatment led to well-dispersed platy haematite particles of 20–200 nm in diameter with aspect ratio of 4–10. The hematite nano-platelets were weakly ferromagnetic with coercivity of ~ 160 Oe and remanent magnetisation of 0.2 emu/g.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideResearch highlights► Synthesis of well-dispersed α-Fe2O3 nano-platelets using a scalable method. ► The nano-platelets had sizes of ~ 150 nm in diameter with high aspect ratio of 4–10. ► Transformation from 6 nm nanoparticles to 150 nm nano-platelets was induced in a solid matrix. ► The nano-platelets had the coercivity of ~ 160 Oe, remanent magnetisation of 0.2 emu/g.