Subcomponent Self-Assembly of Rare-Earth Single-Molecule Magnets

A family of lanthanide complexes has been synthesized by the subcomponent self-assembly methodology. Molecular architectures, which were stable in solution and under ambient conditions, were designed by the in situ formation of ligands around lanthanide ion templates Magnetic studies indicated that, despite the low C-2 symmetry, 1 and 2 display single molecule magnet (SMM) behavior, with 1 exhibiting an effective energy barrier of the relaxation of the magnetization U-eff/k(B) = 50 K and the pre-exponential factor tau(o) = 6.80 X 10(-7) s. Step-like features in the hysteresis loops indicate the presence of quantum tunneling of the magnetization (QTM).

Subcomponent Self-Assembly of Rare-Earth Single-Molecule Magnets

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Magnetism of Single Surface Adsorbed Atoms Studied with Radio-Frequency STM

Valence Orbitals Driving the Spin Dynamics in a Rare-Earth Single-Atom Magnet

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Magnetism of Single Surface Adsorbed Atoms Studied with Radio-Frequency STM

Valence Orbitals Driving the Spin Dynamics in a Rare-Earth Single-Atom Magnet

The Impact of Lattice Distortions on the Magnetic Stability of Single Atoms: Dy and Ho on BaO(100)