Abstract
A novel molecular assembly of a cobalt−sulfate coordination polymer and melamine is synthesized under acidic conditions. Bar-shaped pink monocrystals as long as 1 mm are found to align along magnetic field lines in the proximity of a strong magnet. Magnetometry shows no hysteresis at temperatures down to 2 K but instead magnetic anisotropy and antiferromagnetic coupling. X-ray diffraction on a single crystal reveals that the cobalt−sulfate chains are along the shortest lattice vector or the crystal’s long axis. The crystal alignment along the magnetic flux can be attributed to single-ion anisotropy that results in longitudinal antiferromagnetic coupling along the chain. Both structurally and magnetically isotropic crystals of metal−organic hybrid materials can be highly useful as elemental components in magneto-optics.
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CITATION STYLE
Vírseda, I. B., Siddiqui, S. A., Prado-Roller, A., Eisterer, M., & Shiozawa, H. (2023). A Novel Molecular Assembly of a Cobalt−Sulfate Coordination Polymer and Melamine: A Manifestation of Magnetic Anisotropy. ACS Omega, 8(3), 3493–3500. https://doi.org/10.1021/acsomega.2c07556
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