Journal ArticleDOI
Ab-initio quantum-mechanical GIAO calculation of the anisotropic effect of C–C and X–C single bonds—application to the 1H NMR spectrum of cyclohexane
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TLDR
In this paper, the anisotropic effects of the C-C single bond in ethane and various other X−C single bonds (X = OH, SH, NH2) have been quantitatively calculated as nuclear independent chemical shieldings (NICSs) in a three-dimensional grid of lattice atoms around the single bonds using the GIAO method integrated into the GAUSSIAN 98 calculation program.Abstract:
The anisotropic effects of the C–C single bond in ethane and various other X–C single bonds (X = OH, SH, NH2) have been quantitatively calculated as nuclear independent chemical shieldings (NICSs) in a three-dimensional grid of lattice atoms around the single bonds using the GIAO method integrated into the GAUSSIAN 98 calculation program. The shielding/deshielding areas due to the anisotropic effect have been plotted as iso-chemical-shift-surfaces (ICSSs); hereby, both direction and scale of the anisotropic effect were quantified and visualized. The results obtained are not in agreement with McConnell's point dipole model; the influence of the anisotropic effect of C–C and X–C single bonds on especially 1H chemical shifts must be reevaluated. The various magnetic contributions to the theoretical NMR shielding tensors of the axial/equatorial protons in cyclohexane were calculated
by a detailed NCS-NBO analysis. The partition of the C(2)–C(3) [C(5)–C(6)] bonds at the C(1)–Hax/Hequ magnetic shielding tensors determines both position and chemical shift difference, dominated by hyperconjugation.read more
Citations
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Calculations of magnetically induced current densities: theory and applications
TL;DR: A review of computational studies of magnetically induced current density susceptibilities in molecules and their relation to experiments is presented in this paper, where numerical integration approaches to assess global, semilocal, and local aromatic properties of multiring molecules are presented and demonstrated on free-base trans-porphyrin.
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The magnetic shielding function of molecules and pi-electron delocalization.
TL;DR: The following topics are discussed: interaction of mols.
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DFT study of “all-metal” aromatic compounds
TL;DR: An overview of recent quantum chemical studies on all-metal aromatic compounds is presented in this paper, where the mechanistic insight gained for the aromatic character of all metal aromatic molecules is discussed and the predictive nature of the electronic structure calculation methods particularly those based on density functional theory (DFT).
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Electronic state of push-pull alkenes: an experimental dynamic NMR and theoretical ab initio MO study.
TL;DR: Of the various levels of theory tried, MP2 calculations with a triple-zeta-valence basis set were found to be the most effective for providing reliable results.
Journal ArticleDOI
How Do Ring Currents Affect 1H NMR Chemical Shifts
TL;DR: Ab initio (IGLO) analyses reveal that the downfield delta (1)H of benzene is not due to deshielding ring current effects; the shielding is less than the pi contribution to vinyl delta ( 1)Hs.
References
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Journal ArticleDOI
Nucleus-Independent Chemical Shifts: A Simple and Efficient Aromaticity Probe
Paul von Ragué Schleyer,Christoph Maerker,Alk Dransfeld,Haijun Jiao,Nicolaas J. R. van Eikema Hommes +4 more
TL;DR: The use of absolute magnetic shieldings, computed at ring centers with available quantum mechanics programs, are proposed as a new aromaticity/antiaromaticity criterion to establish NICS as an effective aromaticity criterion.
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Self-consistent perturbation theory of diamagnetism
TL;DR: In this paper, an ab initio gauge-invariant molecular orbital theory is developed for nuclear magnetic shielding, which is written as linear combinations of gauge invariant atomic orbitals, the wavefunctions in the presence of a uniform external magnetic field being determined by self-consistent field perturbation theory.
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A comparison of models for calculating nuclear magnetic resonance shielding tensors
TL;DR: In this article, the direct implementation of the GIAO and CSGT methods for calculating nuclear magnetic shielding tensors at both the Hartree-Fock and density functional levels of theory is presented.
Journal ArticleDOI
Natural chemical shielding analysis of nuclear magnetic resonance shielding tensors from gauge-including atomic orbital calculations
TL;DR: Natural chemical shielding (NCS) analysis as mentioned in this paper is an extension of natural bond orbital (NBO) analysis, which complements the description provided by alternative localized orbital methods by directly calculating chemical shieldings due to delocalized features in the electronic structure.
Journal ArticleDOI
The Perlin Effect: bond lengths, bond strengths, and the origins of stereoelectronic effects upon one-bond C–H coupling constants
TL;DR: The magnitude of a one-bond C-H coupling constant depends upon the chemical environment of the hydrogen atom and, especially, upon its stereochemical relationship to vicinal lone electron pairs as discussed by the authors.