Magnetic clusters and ferromagnetic spin glass in the novel hexagonal perovskite 12R-Ba4SbMn3O12

A 12-layer hexagonal perovskite Ba₄SbMn₃O₁₂ (space group: R3̄m; a = 5.72733(3) Å, and c = 28.1770(3) Å) has been synthesized by high-temperature solid-state reactions and studied using powder X-ray and neutron diffraction and magnetization measurements. This 12R polytype structure contains one corner-sharing (Sb, Mn)O₆ octahedron and a trimer of face-sharing MnO₆ octahedra per formula unit. Ba₄SbMn₃O₁₂ displays a paramagnetic state of the Mn₃ magnetic cluster at 100-200 K, which partially disassociates into individual Mn ions at 250-300 K. The ferromagnetic interaction between these Mn₃ clusters is mainly mediated by Mn³⁺ at the M1 site, leading to dynamic ferromagnetic clusters below T _D = ∼70 K and ferromagnetic spin freezing transition at T _g = ∼11.5 K. The stability of Mn₃ magnetic clusters in the 12R polytypes is related to the intracluster Mn-Mn distance.

Molecule-like cluster magnetism and cationic order in the new hexagonal perovskite Ba4Sn1.1Mn2.9O12

The new hexagonal perovskite phase of composition Ba₄Sn_1.1Mn_2.9O₁₂ has been synthesized by solid-state reactions at 1673 K. The crystal structure has been investigated using X-ray and neutron diffraction. The hexagonal perovskite structure has an ordered arrangement of Sn and Mn ions on the corner-sharing octahedral centers and the face-sharing octahedral centers respectively. Short Mn–Mn distances have been evidenced in the face-sharing trimer of MnO₆ octahedra. The magnetic susceptibility shows magnetic cluster behavior, with cluster formation temperature ∼220 K. Antiferromagnetic order has been observed at T_N ∼ 6 K. Ba₄Sn_1.1Mn_2.9O₁₂ is a semiconductor with a transport activation energy of 0.61 eV.

The new 12R hexagonal perovskite Ba₄Sn_1.1Mn_2.9O₁₂ shows molecular-like cluster magnetism and Sn/Mn cationic order.

New 10H perovskites Ba5Ln1−xMn4+yO15−δ with spin glass behaviour

New 10H perovskites Ba₅Ln_1−xMn_4+yO_15−δ with ordered arrangements of Ln and Mn ions and spin glass behavior were synthesized and investigated.

Dielectric, ferroelectric and magnetic properties of hexagonal Ba6Y2Ti4O17 (BYTO) perovskite derived from semi wet route

Ba₆Y₂Ti₄O₁₇ (BYTO) synthesized by semi-wet combustion route with hexagonal morphology confirmed by scanning electron microscopy and transmission electron microscopy. A systematic investigation of dielectric, ferroelectric and magnetic properties of BYTO was carried out.