Assignment of solid-stateC andH NMR spectra of paramagnetic Ni(II) acetylacetonate complexes aided by first-principles computations.

Title Assignment of solid-stateC andH NMR spectra of paramagnetic Ni(II) acetylacetonate complexes aided by first-principles computations.
Authors S.Awais Rouf; V.Boel Jakobsen; J. Mare?; N.Daugaard Jensen; C.J. McKenzie; J. Vaara; U.Gro Nielsen
Journal Solid State Nucl Magn Reson
DOI 10.1016/j.ssnmr.2017.07.003
Abstract

Recent advances in computational methodology allowed for first-principles calculations of the nuclear shielding tensor for a series of paramagnetic nickel(II) acetylacetonate complexes, [Ni(acac)L] with L = HO, DO, NH, ND, and PMePh have provided detailed insight into the origin of the paramagnetic contributions to the total shift tensor. This was employed for the assignment of the solid-stateH andC MAS NMR spectra of these compounds. The two major contributions to the isotropic shifts are by orbital (diamagnetic-like) and contact mechanism. The orbital shielding, contact, as well as dipolar terms all contribute to the anisotropic component. The calculations suggest reassignment of theC methyl and carbonyl resonances in the acac ligand [Inorg. Chem.53, 2014, 399] leading to isotropic paramagnetic shifts of ?(C) ? 800-1100 ppm and ?180-300 ppm forC for the methyl and carbonyl carbons located three and two bonds away from the paramagnetic Ni(II) ion, respectively. Assignment using three different empirical correlations, i.e., paramagnetic shifts, shift anisotropy, and relaxation (T) were ambiguous, however the latter two support the computational results. Thus, solid-state NMR spectroscopy in combination with modern quantum-chemical calculations of paramagnetic shifts constitutes a promising tool for structural investigations of metal complexes and materials.

Citation S.Awais Rouf; V.Boel Jakobsen; J. Mare?; N.Daugaard Jensen; C.J. McKenzie; J. Vaara; U.Gro Nielsen.Assignment of solid-stateC andH NMR spectra of paramagnetic Ni(II) acetylacetonate complexes aided by first-principles computations.. Solid State Nucl Magn Reson. 2017;87:2937. doi:10.1016/j.ssnmr.2017.07.003

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