Abstract

The recently published two-step ammonolysis was adapted to the first synthesis of GaFe3N as a pure phase and AlFe3N with a very high phase purity. Similar to archetypal γ′-Fe4N (a = 3.7900(6) Å), the ternary nitride GaFe3N adopts a perovskite-like structure in space group Pm3̅m with a slightly enlarged lattice parameter of a = 3.7974(1) Å. The magnetic characterization clearly evidences that GaFe3N is an antiferromagnet. The systematic exchange of Ga by Fe in going from GaFe3N to γ′-Fe4N results in a change from antiferromagnetic to ferromagnetic behavior. In contrast, the homologous ternary nitride AlFe3N shows a statistical Al/Fe substitution which results in space group Fm3̅m. AlFe3N can be classified as a soft ferromagnetic nitride.