Use este identificador para citar ou linkar para este item: http://repositorio.ufla.br/jspui/handle/1/36722
Título: Predicting Pt‐195 NMR chemical shift using new relativistic all‐electron basis set
Palavras-chave: All‐electron Gaussian basis set
Relativistic effects
Platinum complexes
Structure prediction
Conjunto de bases gaussianas totalmente elétricas
Efeitos relativísticos
Complexos de platina
Previsão de estrutura
Data do documento: 5-Out-2016
Editor: Wiley
Citação: PASCHOAL, D.; GUERRA, C. F.; OLIVEIRA, M. A. L. de, RAMALHO, T. C.; SANTOS, H. F. dos. Predicting Pt‐195 NMR chemical shift using new relativistic all‐electron basis set. Journal of Computational Chemistry, New York, v. 37, n. 26, p. 2360-2373, 5 Oct. 2016.
Resumo: Predicting NMR properties is a valuable tool to assist the experimentalists in the characterization of molecular structure. For heavy metals, such as Pt‐195, only a few computational protocols are available. In the present contribution, all‐electron Gaussian basis sets, suitable to calculate the Pt‐195 NMR chemical shift, are presented for Pt and all elements commonly found as Pt‐ligands. The new basis sets identified as NMR‐DKH were partially contracted as a triple‐zeta doubly polarized scheme with all coefficients obtained from a Douglas–Kroll–Hess (DKH) second‐order scalar relativistic calculation. The Pt‐195 chemical shift was predicted through empirical models fitted to reproduce experimental data for a set of 183 Pt(II) complexes which NMR sign ranges from −1000 to −6000 ppm. Furthermore, the models were validated using a new set of 75 Pt(II) complexes, not included in the descriptive set. The models were constructed using non‐relativistic Hamiltonian at density functional theory (DFT‐PBEPBE) level with NMR‐DKH basis set for all atoms. For the best model, the mean absolute deviation (MAD) and the mean relative deviation (MRD) were 150 ppm and 6%, respectively, for the validation set (75 Pt‐complexes) and 168 ppm (MAD) and 5% (MRD) for all 258 Pt(II) complexes. These results were comparable with relativistic DFT calculation, 200 ppm (MAD) and 6% (MRD). © 2016 Wiley Periodicals, Inc.
URI: https://onlinelibrary.wiley.com/doi/full/10.1002/jcc.24461
http://repositorio.ufla.br/jspui/handle/1/36722
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