Solid-State 17O NMR Spectroscopy of Paramagnetic Coordination Compounds

Angewandte Chemie International Edition by Xianqi Kong, Victor V. Terskikh, Rahul L. Khade, Liu Yang, Amber Rorick, Yong Zhang, Peng He, Yining Huang, Gang Wu  /  11d  //  keep unread  //  hide  //  preview

Abstract

High-quality solid-state ¹⁷O (I=5/2) NMR spectra can be successfully obtained for paramagnetic coordination compounds in which oxygen atoms are directly bonded to the paramagnetic metal centers. For complexes containing V^III (S=1), Cu^II (S=1/2), and Mn^III (S=2) metal centers, the ¹⁷O isotropic paramagnetic shifts were found to span a range of more than 10 000 ppm. In several cases, high-resolution ¹⁷O NMR spectra were recorded under very fast magic-angle spinning (MAS) conditions at 21.1 T. Quantum-chemical computations using density functional theory (DFT) qualitatively reproduced the experimental ¹⁷O hyperfine shift tensors.

Going paramagnetic! High-quality ¹⁷O solid-state NMR spectra were obtained for paramagnetic coordination complexes, even when the oxygen atoms of interest are directly bonded to the paramagnetic metal center.

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