Calcium zinc manganites, Ca 4Mn 7Zn 3O 21 − δ (0.5 < δ < 2.5) with beta-alumina or magnetoplumbite-type structure and their nonlinear electrical transport and magnetic properties

Abstract

Phase-pure calcium zinc manganite, Ca 4Mn 7Zn 3O 21 − δ has been synthesized by the solid-state reaction between CaMnO 3, ZnO and Mn 3O 4 at ∼ 1300 °C. Conversion of Ca 4Mn 7Zn 3O 21 − δ to Ca 4Mn 7Zn 3O 19 ± δ occurs at 1330–1350 °C which is influenced by the oxygen nonstoichiometry associated with increasing Mn 3+/Mn 4+ ratio. The Ca 4Mn 7Zn 3O 21 − δ phase is rhombohedral (space group = R3¯m) and has the β″-alumina (BA)-type structure consisting dominantly of Mn 4+ (3d 3) ions. The Ca 4Mn 7Zn 3O 19 ± δ is hexagonal (space group = P6 3/mmc) having the magnetoplumbite (MP)-type structure containing dominantly Mn 3+ (3d 4) ions. The electrical transport properties of Ca 4Mn 7Zn 3O 21 − δ and Ca 4Mn 7Zn 3O 19 ± δ are indicative of the activated-type small polaron hopping conductivity below 366 and 392 K respectively. The anisotropic charge transport is influenced only in a limited way by the mixed-valency of Mn prevailing in the manganite spinel blocks. Highly nonlinear current–voltage ( I– V) curves with nonlinearity coefficient, α, up to 64 was achieved at the turn-on field strength E t ∼ 110–160 V/mm. Magnetic properties of Ca 4Mn 7Zn 3O 21 − δ and Ca 4Mn 7Zn 3O 19 ± δ have been investigated which showed the antiferromagnetic-insulating (AFI) behavior with T N = 103 and 80 K and with an AF-ordered effective magnetic moment, μ eff = 3.54 and 4.28 μ B/Mn respectively. The Ca 4Mn 7Zn 3O 19 ± δ phase showed the ferrimagnetic interaction below T N (at ∼ 20 K).