ChemInform Abstract: Synthesis, Structure and Magnetic Properties of La₃Co₂SbO₉: A Double Perovskite with Competing Antiferromagnetic and Ferromagnetic Interactions.

Abstract: Reddish‐black polycrystalline powder of the title compound is prepared by solid state reaction of a stoichiometric mixture of La2O3, Co3O4, and Sb2O3 (950 °C for 12 h and 1400 °C for 12 h).

“…The AFM Co 2+ OCo 2+ and FM Co 2+ OM 5+ O Co 2+ super exchange interactions have been proposed in isostructural La 3 Co 2 SbO 9 . 27,28 Analogous to this scenario, an interplay between AFM Ni 2+ ONi 2+ and FM Ni 2+ O Nb 5+ ONi 2+ super exchange interactions is exceedingly probable in La 3 Ni 2 NbO 9 , which needs to be confirmed from the neutron diffraction studies. Therefore, coexistence of competing of FM and AFM interactions can be the origin of the magnetic frustration in this system.…”

“…Low temperature neutron diffraction study of La 3 Co 2 SbO 9 confirmed that FM ordering temperature at 55 K was strongly dominated by the Co 2+ OSb 5+ OCo 2+ super exchange interaction. 28 It was further suggested that nature of FM order did not resemble typical long-range magnetic order, proposing a significant magnetic frustration. A relaxor FM behavior has been proposed for La 3 Ni 2 SbO 9 below 105 K. 30 At 5 K, any magnetic diffraction peak could not be detected from the neutron diffraction studies, further suggesting the relaxor behavior.…”

Magnetoelectric Coupling, Ferroelectricity, and Magnetic Memory Effect in Double Perovskite La₃Ni₂NbO₉

“…The AFM Co 2+ OCo 2+ and FM Co 2+ OM 5+ O Co 2+ super exchange interactions have been proposed in isostructural La 3 Co 2 SbO 9 . 27,28 Analogous to this scenario, an interplay between AFM Ni 2+ ONi 2+ and FM Ni 2+ O Nb 5+ ONi 2+ super exchange interactions is exceedingly probable in La 3 Ni 2 NbO 9 , which needs to be confirmed from the neutron diffraction studies. Therefore, coexistence of competing of FM and AFM interactions can be the origin of the magnetic frustration in this system.…”

“…Low temperature neutron diffraction study of La 3 Co 2 SbO 9 confirmed that FM ordering temperature at 55 K was strongly dominated by the Co 2+ OSb 5+ OCo 2+ super exchange interaction. 28 It was further suggested that nature of FM order did not resemble typical long-range magnetic order, proposing a significant magnetic frustration. A relaxor FM behavior has been proposed for La 3 Ni 2 SbO 9 below 105 K. 30 At 5 K, any magnetic diffraction peak could not be detected from the neutron diffraction studies, further suggesting the relaxor behavior.…”

Magnetoelectric Coupling, Ferroelectricity, and Magnetic Memory Effect in Double Perovskite La₃Ni₂NbO₉

“…14) which coincides well with the previously reported literature. [16][17][18]20 Thanks to the large neutron scattering intensity for oxygen atoms, accurate bond parameters correlated with oxygen are capable of being determined by neutron diffraction techniques. The cell parameters as well as the selected bond parameters are given in Table 1.…”

Connection between Unusual Lattice Thermal Expansion and Cooperative Jahn–Teller Effect in Double Perovskites LaPbMSbO₆ (M = Mn, Co, Ni)

“…La 3 Co 2 SbO 9 shows the same cation ordering pattern as La 3 Ni 2 SbO 9 , but the sharp increase in magnetization observed in the latter at 108 K is not observed in the former. 6 Franco et al postulated that frustration prevents the development of long-range ferromagnetism, and their neutron diffraction data, collected at 2 K, contained a magnetic Bragg peak which they took to be indicative of an unidentified antiferromagnetically ordered structure. They have also studied 7 the system La 3 Ni 2−y Co y SbO 9 wherein they found a similarly ordered distribution of cations but no evidence for long-range magnetic ordering.…”

“…6 All the Sr/La−O distances contract on cooling from 300 to 5 K, but the changes are not significant in the light…”

Ferrimagnetism as a Consequence of Unusual Cation Ordering in the Perovskite SrLa₂FeCoSbO₉