38—NUCLEAR MAGNETIC RESONANCE OF WATER SORBED ON FIBROUS MATERIALS
- 1 December 1960
- journal article
- research article
- Published by Taylor & Francis in Journal of the Textile Institute Transactions
- Vol. 51 (12) , T562-T572
- https://doi.org/10.1080/19447026008662585
Abstract
The sorption of water in wool, silk and nylon fibres, and in wool cortical cells, has been studied by nuclear magnetic resonance (NMR). Proton resonance line shapes and relaxation times were determined as a function of moisture content. In every case the relatively narrow signal from the sorbed water could be distinguished from the broad resonance of the substrate. As little as I% water in wool can be detected by this technique. The width of the resonance depends on both the sorbent and the moisture content and decreases as the moisture content is increased as a result of the increasing mobility of the sorbed water. The results of this study, when interpreted in terms of the Kubo-Tomita theory of magnetic resonance and the kinetic theory of rate processes, suggest that the water is bound in clusters to the sorbent, and that surface migration is the dominant mode of magnetic relaxation.Keywords
This publication has 19 references indexed in Scilit:
- Nuclear Magnetic Resonance of Water Sorbed on Fibrous MaterialsThe Journal of Chemical Physics, 1959
- Nuclear Magnetic Resonance Studies in Multiple Phase Systems: Lifetime of a Water Molecule in an Adsorbing Phase on Silica GelThe Journal of Physical Chemistry, 1957
- Nuclear Magnetic Resonance Absorption by H2O on TiO2The Journal of Chemical Physics, 1956
- Relaxation Processes in a System of Two SpinsPhysical Review B, 1955
- A General Theory of Magnetic Resonance AbsorptionJournal of the Physics Society Japan, 1954
- Structural Investigations by Means of Nuclear Magnetism. II. Hindered Rotation in SolidsThe Journal of Chemical Physics, 1950
- The Dipolar Broadening of Magnetic Resonance Lines in CrystalsPhysical Review B, 1948
- Nuclear Resonance Absorption in Hydrated Crystals: Fine Structure of the Proton LineThe Journal of Chemical Physics, 1948
- Relaxation Effects in Nuclear Magnetic Resonance AbsorptionPhysical Review B, 1948
- Nuclear InductionPhysical Review B, 1946