Isotopic labelling of dihydrofolate reductase for NMR studies

Khaw, Lake Ee

08 1900

No description available.

Reductones

Nuclear magnetic resonance

Nuclear magnetic double resonance experiments on chemically exchanging molecules

Yang, Ping Pin

08 1900

No description available.

Nuclear magnetic resonance

N¹⁴ nuclear magnetic resonance investigation of some solid nitrates

Whitehouse, Bruce Alan

08 1900

No description available.

Nitrates

Nuclear magnetic resonance

Stabilization of a magnetic field for detection of nuclear magnetic resonances

Dyer, F. B. (Frederick Byron)

08 1900

No description available.

Nuclear magnetic resonance

Magnetism

Studies in nuclear magnetic resonance : I. Anisotropy of the fluorine shielding constants in substituted fluorobenzenes. II. Molecular motions in borane and borontrihalide complexes.

Yim, Chung-Tat.

January 1969

No description available.

Nuclear magnetic resonance

Applications of nuclear quadrupole resonance spectroscopy.

Kaplansky, Marvin

January 1967

No description available.

Nuclear magnetic resonance

Solid-state NMR characterisation of transition-metal bearing nuclear waste glasses

Greer, Brandon

26 September 2012

Alkali borosilicate glass is used to immobilise high-level radioactive waste generated from the reprocessing of spent nuclear fuel. However, poorly soluble waste products such as molybdenum present issues for long-term storage of the material, whereby phase separation of water-soluble crystalline aggregates truncate the glass network and offer leaching opportunities for the escape of radionuclides into the environment. Solid-state NMR is an effective technique for studying the phase separation in nuclear waste glasses, as it is able to distinguish glassy and crystalline environments using nuclei-specific probes. The presence of paramagnetic transition metal cations within the waste glass compromises the efficacy of NMR, as unpaired electrons can cause broadening and chemical shift effects. This work engages in a multinuclear magnetic resonance characterisation of paramagnetically-doped (by Cr2O3, MnO2, Fe2O3, NiO, or Nd2O3) model nuclear waste glasses and explores the partitioning of transition-metal components. Characterisation of the separated heterogeneous crystalline phase was accomplished principally by 133Cs, 23Na, and 95Mo NMR, where it was determined that Cr substitutes into mixed-alkali molybdates. Furthermore, paramagnetic broadening and relaxation effects were observed and quantified by 11B and 29Si NMR.

Nuclear Magnetic Resonance

Anharmonic effects on the resonance line shape of U-238 in UO[subscript]2

d'Avila, Ronald L.

08 1900

No description available.

Nuclear magnetic resonance

Resonance

Studies in nuclear magnetic resonance.

Matthews, Christopher Howard.

January 1970

No description available.

Nuclear magnetic resonance

Pyridine

NMR of phosphorus-containing solids

Wilkes, Philip John

January 1987

The purpose of this work has been the determination of structure in solids using the technique of solid-state nuclear magnetic resonance spectroscopy. High-resolution (^31) p NMR spectra have been obtained for a range of phosphate species. A number of techniques have been applied to these systems including cross-polarization, magic angle spinning, and high power proton decoupling. Characterisation using additional NMR techniques such as (^1) H cramps has been carried out wherever possible. The results obtained yield molecular and crystallographic information consistent with data from X-ray diffraction when known. Shielding tensor components were determined from static and/or spinning spectra wherever possible. The phosphate species studied include a series of precipitated calcium phosphates. A particular model for the structure of amorphous calcium phosphate is favoured in the light of (^31) p NMR measurements. One sample showed NMR evidence for changes in composition whilst in the solid state. The origins of (^31) p NMR line widths in high-resolution solid-state spectra have been considered in some detail. Variation of (^31) p NMR linewidth as function of spinning rate has been noted for a number phosphate compounds. Multiple pulse techniques have been applied on the phosphorus channel with pleasing improvements in spectral resolution. Five solid binary phosphorus sulphides have also been studied using phosphorus MAS NMR, and the results compared to solution state data wherever possible. A number of anomalies between solution and solid-state data have been noted and discussed.

530.41

Nuclear magnetic resonance