Magnetic, Electronic, and Mechanical Properties of Bulk ε-Fe2N Synthesized at High Pressures

We sintered bulk trigonal epsilon-Fe2N (space group: P312) with the high-pressure and high-temperature method. Structural refinements by the Rietveld method result in a trigonal unit cell with parameters of a = 4.7767(1) angstrom and c = 4.4179(3) angstrom. epsilon-Fe2N is ferromagnetic with a Curie temperature of similar to 250 K, a saturation magnetization (M-s) value of up to 1.2 mu(B)/formula units (f.u.), and comparatively low coercive field. The Vickers hardness was measured, and the results showed that the asymptotic hardness of bulk epsilon-Fe2N is about 6.5 GPa with a load of 1000 g. Thermogravimetric (TG) analysis shows that epsilon-Fe2N is thermally stable below 670 K. epsilon-Fe2N exhibits good metal conductivity, and the electron transport measurements show that the resistivity of it is 172 mu Omega cm at room temperature. The theoretical calculations suggest that the conducting states are mainly derive from Fe-3d states.

Automated summary

Bulk trigonal ε-Fe2N was sintered using high-pressure and high-temperature method, showing ferromagnetism with low coercive field, hardness of about 6.5 GPa, good thermal stability below 670 K, and excellent metal conductivity.