The proton nuclear magnetic shielding tensors in biphenyl: Experiment and theory

Line-narrowing multiple pulse techniques are applied to a spherical sample crystal of biphenyl. The 10 different proton shielding tensors in this compound are determined. The accuracy level for the tensor components is 0.3 ppm. The assignment of the measured tensors to the corresponding proton sites...

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Bibliographic Details
Published in:Journal of magnetic resonance (1997) 2005-07, Vol.175 (1), p.52-64
Main Authors: Schönborn, Frank, Schmitt, Heike, Zimmermann, Herbert, Haeberlen, Ulrich, Corminboeuf, Clémence, Großmann, Gisbert, Heine, Thomas
Format: Article
Language:English
Subjects:
Algorithms
Biphenyl Compounds - analysis
Biphenyl Compounds - chemistry
Computer Simulation
Intermolecular contributions
Magnetic Resonance Spectroscopy - methods
Models, Chemical
Models, Molecular
Proton shielding tensors
Quantum chemical calculations
Quantum Theory
Signal Processing, Computer-Assisted
Symmetry relations
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Summary:Line-narrowing multiple pulse techniques are applied to a spherical sample crystal of biphenyl. The 10 different proton shielding tensors in this compound are determined. The accuracy level for the tensor components is 0.3 ppm. The assignment of the measured tensors to the corresponding proton sites is given careful attention. Intermolecular shielding contributions are calculated by the induced magnetic point dipole model with empirical atom and bond susceptibilities (distant neighbours) and by a new quantum chemical method (near neighbours). Subtracting the intermolecular contributions from the (correctly assigned) measured shielding tensors leads to isolated-molecule shielding tensors for which there are symmetry relations. Compliance to these relations is the criterion for the correct assignment. The success of this program indicates that intermolecular proton shielding contributions can be calculated to better than 0.5 ppm. The isolated-molecule shielding tensors obtained from experiment and calculated intermolecular contributions are compared with isolated-molecule quantum chemical results. Expressed in the icosahedral tensor representation, the rms differences of the respective tensor components are below 0.5 ppm for all proton sites in biphenyl. In the isolated molecule, the least shielded direction of all protons is the perpendicular to the molecular plane. For the para proton, the intermediate principal direction is along the C–H bond. It is argued that these relations also hold for the protons in the isolated benzene molecule.
ISSN:1090-7807
1096-0856
DOI:10.1016/j.jmr.2005.03.010