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First-Principles Calculation of 1H NMR Chemical Shifts of Complex Metal Polyhydrides: The Essential Inclusion of Relativity and Dynamics

Castro, Abril C ; Balcells, David ; Repisky, Michal ; Helgaker, Trygve ; Cascella, Michele

Inorganic chemistry, 2020 [Periódico revisado por pares]

ACS Publications

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  • Título:
    First-Principles Calculation of 1H NMR Chemical Shifts of Complex Metal Polyhydrides: The Essential Inclusion of Relativity and Dynamics
  • Autor: Castro, Abril C ; Balcells, David ; Repisky, Michal ; Helgaker, Trygve ; Cascella, Michele
  • É parte de: Inorganic chemistry, 2020
  • Notas: EC/H2020/794563
  • Descrição: 1H NMR spectroscopy has become an important technique for the characterization of transition-metal hydride complexes, whose metal-bound hydrides are often difficult to locate by X-ray diffraction. In this regard, the accurate prediction of 1H NMR chemical shifts provides a useful, but challenging, strategy to help in the interpretation of the experimental spectra. In this work, we establish a density-functional-theory protocol that includes relativistic, solvent, and dynamic effects at a high level of theory, allowing us to report an accurate and reliable interpretation of 1H NMR hydride chemical shifts of iridium polyhydride complexes. In particular, we have studied in detail the hydride chemical shifts of the [Ir6(IMe)8(CO)2H14]2+ complex in order to validate previous assignments. The computed 1H NMR chemical shifts are strongly dependent on the relativistic treatment, the choice of the DFT exchange–correlation functional, and the conformational dynamics. By combining a fully relativistic four-component electronic-structure treatment with ab initio molecular dynamics, we were able to reliably model both the terminal and bridging hydride chemical shifts and to show that two NMR hydride signals were inversely assigned in the experiment.
  • Editor: ACS Publications
  • Idioma: Norueguês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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