Spin‐orbit <scp>ZORA</scp> and four‐component <scp>D</scp>irac–<scp>C</scp>oulomb estimation of relativistic corrections to isotropic nuclear shieldings and chemical shifts of noble gas dimers

Jankowska, Marzena; Kupka, Teobald; Stobiński, Leszek; Faber, Rasmus; Lacerda, Evanildo G.; Sauer, Stephan P. A.

doi:10.1002/jcc.24228

Cited by 18 publications

(23 citation statements)

References 86 publications

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“…Evidently, the isotropic hyperfine coupling constant changed only slightly but in a consistent manner when the basis set was increased by using the DKS method and Dyall's basis sets, whereas we observed the same irregular, no‐monotonic behaviour of the ZORA basis sets, as seen previously, for nuclear magnetic shielding 31, 32. It was shown there, that the increasing cardinal number and the increasing amount of polarization functions have opposite effects, which lead to an oscillating and not yet converging behaviour.…”

Section: Resultssupporting

confidence: 88%

“…For example, previous studies showed that, in ZORA calculations of nuclear magnetic shielding constants, it was important to use the large QZ4P basis sets 31, 32. Therefore, we also studied the basis set dependence of both the ZORA and DKS results for the hyperfine coupling constants in both ions.…”

Section: Resultsmentioning

confidence: 99%

“…[30] For example, previous studies showed that, in ZORA calculations of nuclear magnetic shieldingc onstants,i tw as important to use the large QZ4P basis sets. [31,32] Therefore, we also studied the basis set dependence of both the ZORA and DKS resultsf or the hyperfine coupling constants in both ions. Ta ble 1s hows the LR ZORA and EV ZORA results of the isotropic hyperfine coupling constant of Re IV and Ir IV complexes, respectively,w hich were obtained with the special ZORA STO basis sets DZ, TZ2P,a nd QZ4P,a s well as DKS 4-component results, whichw ere obtainedw ith Dyalls vdz, vtz, and vqz GTO basis sets.…”

Section: Basis Set Dependencementioning

confidence: 99%

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Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF₆]²⁻ and [IrF₆]²⁻

Haase

Repiský

Komorovský

et al. 2017

Chemistry A European J

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The performance of relativistic density functional theory (DFT) methods has been investigated for the calculation of the recently measured hyperfine coupling constants of hexafluorido complexes [ReF6]2− and [IrF6]2−. Three relativistic methods were employed at the DFT level of theory: the 2‐component zeroth‐order regular approximation (ZORA) method, in which the spin–orbit coupling was treated either variationally (EV ZORA) or as a perturbation (LR ZORA), and the 4‐component Dirac–Kohn–Sham (DKS) method. The dependence of the results on the basis set and the choice of exchange‐correlation functional was studied. Furthermore, the effect of varying the amount of Hartree–Fock exchange in the hybrid functionals was investigated. The LR ZORA and DKS methods combined with DFT led to very similar deviations (about 20 %) from the experimental values for the coupling constant of complex [ReF6]2− by using hybrid functionals. However, none of the methods were able to reproduce the large anisotropy of the hyperfine coupling tensor of complex [ReF6]2−. For [IrF6]2−, the EV ZORA and DKS methods reproduced the experimental tensor components with deviations of ≈10 and ≈5 % for the hybrid functionals, whereas the LR ZORA method predicted the coupling constant to be around one order of magnitude too large owing to the combination of large spin–orbit coupling and very low excitation energies.

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Section: Resultssupporting

confidence: 88%

Section: Resultsmentioning

confidence: 99%

Section: Basis Set Dependencementioning

confidence: 99%

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Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF₆]²⁻ and [IrF₆]²⁻

Haase

Repiský

Komorovský

et al. 2017

Chemistry A European J

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“…The 3 He NMR spectral range is moderate. Very small chemical shift is observed for helium in He 2 and benzene‐He dimers . In the latter complex, the spherical helium atom is located 3.6 Å from the middle of benzene ring and exhibits only relatively small change of its nuclear shielding with respect to free atom .…”

Section: Introductionmentioning

confidence: 95%

Local aromaticity mapping in the vicinity of planar and nonplanar molecules

Kupka

Gajda

Stobiński

et al. 2019

Magnetic Reson in Chemistry

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We report on nucleus‐independent magnetic shielding (NICS) scans over the centers of six‐ and five‐membered rings in selected metal phthalocyanines (MPc) and fullerene C60 for more accurate characterization of local aromaticity in these compounds. Detailed tests were conducted on model aromatic molecules including benzene, pyrrole, indole, isoindole, and carbazole and subsequently applied to H2Pc, ZnPc, Al(OH)Pc, and CuPc. Similar behavior of three selected magnetic probes, Bq, 3He, and 7Li+, approaching perpendicularly the ring centers, was observed. For better visualization of shielding zone over the centers of aromatic rings, we introduced a simple mathematical procedure: the first and second derivatives of scan curves with respect to magnetic probe position enabled their additional examination. It allowed an easier localization of curve minimum and discrimination between areas in space varying by the magnetic field magnitude and to illustrate local aromaticity of two different kinds of rings in MPc with better resolution. Our results supported earlier reports on very low aromaticity indexes of pyrrole ring incorporated into MPc and significant aromaticity of the central macrocycle. No direct dependence between harmonic oscillator model of aromaticity and NICS was observed. Instead, a correlation between position of scan curve minimum and its magnitude were observed. In addition, the NICS values and 3He chemical shifts in the middle of neutral C60 and C606− anion agreed well with the reported experimental NMR values for He@C60 and He@C606−.

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“…It is well established that relativistic and spin orbit effects strongly contribute to computed σ iso 195 Pt magnetic shielding tensor elements of Pt(II) and Pt(IV) coordination compounds, but this contribution is effectively canceled in the computed δ 195 Pt chemical shifts with respect to the reference standards, because the relativistic corrections are expected to be similar in the complexes and the reference standards. Very recently, Jankowska et al studying systematically the importance of relativistic effects for the noble gas nuclear shielding and the He 2 ‐Xe 2 noble gas dimers chemical shifts showed that for the chemical shifts of the noble gas dimers, the relativistic corrections almost cancel.…”

Section: Introductionmentioning

confidence: 99%

Prediction of ¹⁹⁵Pt NMR of photoactivable diazido‐ and azine‐Pt(IV) anticancer agents by DFT computational protocols

Tsipis

Karapetsas

2016

Magnetic Reson in Chemistry

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Pt NMR chemical shifts for a series of large-sized photoactivable anticancer diazido-Pt(IV), homopiperizine-Pt(IV) and multifunctional azine-Pt(IV) complexes hardly to be probed experimentally and by sophisticated four-component and two-component relativistic calculations are predicted with high accuracy by density functional theory computational protocols. The calculated Pt NMR chemical shifts constitute a crucial descriptor for making highly predictive one-parameter quantitative structure activity relationships models that help in designing photoactivable Pt(IV)-based antitumor agents with high cytotoxicity and selectivity. Copyright © 2016 John Wiley& Sons, Ltd.

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Spin‐orbit ZORA and four‐component Dirac–Coulomb estimation of relativistic corrections to isotropic nuclear shieldings and chemical shifts of noble gas dimers

Cited by 18 publications

References 86 publications

Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF₆]²⁻ and [IrF₆]²⁻

Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF₆]²⁻ and [IrF₆]²⁻

Local aromaticity mapping in the vicinity of planar and nonplanar molecules

Prediction of ¹⁹⁵Pt NMR of photoactivable diazido‐ and azine‐Pt(IV) anticancer agents by DFT computational protocols

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Spin‐orbit ZORA and four‐component Dirac–Coulomb estimation of relativistic corrections to isotropic nuclear shieldings and chemical shifts of noble gas dimers

Cited by 18 publications

References 86 publications

Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF6]2− and [IrF6]2−

Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF6]2− and [IrF6]2−

Local aromaticity mapping in the vicinity of planar and nonplanar molecules

Prediction of 195Pt NMR of photoactivable diazido‐ and azine‐Pt(IV) anticancer agents by DFT computational protocols

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Product

Resources

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Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF₆]²⁻ and [IrF₆]²⁻

Relativistic DFT Calculations of Hyperfine Coupling Constants in 5d Hexafluorido Complexes: [ReF₆]²⁻ and [IrF₆]²⁻

Prediction of ¹⁹⁵Pt NMR of photoactivable diazido‐ and azine‐Pt(IV) anticancer agents by DFT computational protocols