Mixed metallic Ba(Co,Mn)X0.2−xO3−δ (X=F, Cl) hexagonal perovskites

We show here that the incorporation of Mn in Ba–Co-oxohalide, BaCoX0.2−xO3−δ, hexagonal perovskite stabilizes the 6H-form (stacking sequence (chhhch′); c, h=[BaO3] and h′=[BaOX] layers), with tetramers of face-sharing octahedra) rather than the trimeric 10H-form. On the contrary to previous results on the Fe incorporation in similar system leading to more reduced 10H-compounds, the Mn effect is to increase the mean (Co/Mn) valence better suited to the 6H form. We experienced a poor Mn/Co miscibility during our syntheses leading to great difficulties to isolate mixed Co/Mn single phase materials and/or weak reproducibility. Powder neutron diffraction data shows a mixed Mn/Co octahedral occupancy, while the tetrahedra are filled by Co3+ cations. Anionic vacancies were refined in the h′-[BaO1−zX1−x] layer and the next c-[BaO3−z] layers, while the h-[BaO3] layers are not oxygen deficient. Magnetic properties suggest that a part of Mn cations remain paramagnetic until low temperature, while isolated spin clusters (probably driven by AFM Co tetrahedral dimers) behave as low-dimensional AFM systems. Transport measurements reveal a transition from high-temperature metallic to low-temperature semi-conducting states that could occur from defect shallow donor upon the Mn for Co substitution.

The incorporation of Mn in Ba–Co-oxohalide, BaCoX0.2−xO3−δ, hexagonal perovskite stabilizes the 6H-form with tetrameric (Co,Mn)4O15 face sharing linear chains. This results from a oxidizing Mn effect and particular Mn/Co distribution.Figure optionsDownload as PowerPoint slideHighlights
► The incorporation of Mn in BaCoX0.2−xO3−δ (X=F,Cl) hexagonal perovskites stabilizes the 6H-form.
► It contains tetrameric (Co,Mn)4O15 face sharing linear chains.
► The preference for such chains better than trimeric ones is due to the Manganese oxidizing effect.
► A particular Mn/Co distribution was evidenced.
► Transport and magnetic properties drastically change during the Mn incorporation.