Search results for "Zero-field NMR"

showing 2 items of 2 documents

Two-dimensional single- and multiple-quantum correlation spectroscopy in zero-field nuclear magnetic resonance.

2020

We present single- and multiple-quantum correlation $J$-spectroscopy detected in zero ($<\!\!1$~$\mu$G) magnetic field using a \Rb vapor-cell magnetometer. At zero field the spectrum of ethanol appears as a mixture of \carbon isotopomers, and correlation spectroscopy is useful in separating the two composite spectra. We also identify and observe the zero-field equivalent of a double-quantum transition in ${}^{13}$C$_2$-acetic acid, and show that such transitions are of use in spectral assignment. Two-dimensional spectroscopy further improves the high resolution attained in zero-field NMR since selection rules on the coherence-transfer pathways allow for the separation of otherwise overlappi…

Nuclear and High Energy PhysicsZero field NMRMagnetometerNuclear Magnetic Resonancephysics.chem-phBiophysicsFOS: Physical sciences010402 general chemistry01 natural sciencesBiochemistryMolecular physicsSpectral line030218 nuclear medicine & medical imagingIsotopomerslaw.invention03 medical and health sciences0302 clinical medicineEngineeringquant-phlawPhysics - Chemical PhysicsJ-Spectroscopy2D NMRSpectroscopyPhysicsChemical Physics (physics.chem-ph)Quantum PhysicsCorrelation spectroscopyZero (complex analysis)Zero-field NMRCondensed Matter PhysicsMultiple-quantum NMR3. Good health0104 chemical sciencesMagnetic fieldZULF NMRPhysical SciencesQuantum Physics (quant-ph)Two-dimensional nuclear magnetic resonance spectroscopy
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Zero-field nuclear magnetic resonance spectroscopy of viscous liquids

2014

Abstract We report zero-field NMR measurements of a viscous organic liquid, ethylene glycol. Zero-field spectra were taken showing resolved scalar spin–spin coupling (J-coupling) for ethylene glycol at different temperatures and water contents. Molecular dynamics strongly affects the resonance linewidth, which closely follows viscosity. Quantum chemical calculations have been used to obtain the relative stability and coupling constants of all ethylene glycol conformers. The results show the potential of zero-field NMR as a probe of molecular structure and dynamics in a wide range of environments, including viscous fluids.

Nuclear and High Energy PhysicsZero field NMRzero-field NMRBiophysicsAnalytical chemistryNMR spectroscopy; low field nmr; Density functional calculationsViscous liquidBiochemistrychemistry.chemical_compoundViscosityMolecular dynamicsNMR spectroscopyMoleculePhysics::Chemical Physicsdensity functional theoryCoupling constantlow field nmrtechnology industry and agricultureZero-field NMRNuclear magnetic resonance spectroscopyviscous liquidsCondensed Matter PhysicsScalar couplingDensity functional calculationschemistryChemical physicsDensity functional theoryscalar couplingEthylene glycolViscous liquidsJournal of Magnetic Resonance
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