Due to their exceptional anisotropic magnetic properties, lanthanide ion (Ln) complexes are of great utility in many fields of chemistry, including magnetic materials, biomedical imaging, and nuclear magnetic resonance (NMR) spectroscopy. How to achieve large magnetic anisotropies in the Ln complexes coordinated with open-chain ligands is still a challenge. In this study, we started from the open-chain 4PS-PyMTA ligand and assessed the magnetic anisotropy using installed Ln coordinating pendants by increasing size and rigidity. This approach yielded Ln complexes with increasing magnetic anisotropies. The magnetic anisotropy and conformational dynamics of these open-chain 4PS-PyMTA-based Ln complexes were evaluated by NMR spectroscopy. The impact of the coordination arms on the magnetic anisotropy was further characterized by the ligand field parameters derived from europium luminescence spectra. These data show that the design strategy yielded an efficient way to enhance the conformational rigidity of the Ln chelating moiety and the ligand field strength, which underpins magnetic anisotropy. The magnitudes of pseudocontact shifts and residual dipolar couplings obtained with these 4PS-PyMTA-derived tags installed on a protein rival those obtained previously with synthetically less accessible cyclen-based Ln tags. Our work provides a practical strategy to open-chain Ln complexes with large magnetic anisotropies and straightforward synthetic protocols.
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