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Chiral weak ferromagnets were developed in organic-inorganic hybrid systems of one-dimensional manganese(II) chloride hydrate with chiral organic cations of (S)- and (R)-β-methylphenethylammonium (= (S)- and (R)-MPA+), [(S)/(R)-MPA]2[MnCl4(H2O)]. The weak ferromagnetic… Click to show full abstract
Chiral weak ferromagnets were developed in organic-inorganic hybrid systems of one-dimensional manganese(II) chloride hydrate with chiral organic cations of (S)- and (R)-β-methylphenethylammonium (= (S)- and (R)-MPA+), [(S)/(R)-MPA]2[MnCl4(H2O)]. The weak ferromagnetic phase found below 3.2 K could be attributed to a spin canting antiferromagnetic state induced by Dzyaloshinskii-Moriya interactions owing to spatial inversion symmetry breaking in chirality introduced systems. This is the first chiral weak ferromagnet found in a spin chain of deformed perovskite derivatives with a corner-sharing structure of transition metal halide hydrates.
Journal Title: Dalton transactions
Year Published: 2022
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