Overview

The liquid crystalline state has been known for about a century and has been studied by many techniques. Nuclear magnetic resonance has been used to study mesophases for thirty years, but it has been in very recent years that advances in this form of spectroscopy have led to a rapid growth in its applications to the study both of liquid crystals and of solutes dissolved in them. It has become apparent that no other method of studying liquid crystals can yield such a wealth of data and it is unrivalled as a means of probing the behaviour of the molecules in mesophases. There has also been a steady increase in the study of the shape of small molecules dissolved in liquid crystals via the analysis of their NMR spectrum. In fact, the study of solutes was until recently regarded as a separate activity to the study of liquid crystals themselves, but this artificial division arose only from the gap between the large amount of information that could be derived from the spectrum of a small molecule and the rather meagre data set obtainable from the spectra of liquid crystals. This gap has, however, narrowed and it is now possible to derive a very detailed picture of the structure and orientational ordering of the large molecules typical of those which form liquid crystals. There has also been a rapid growth of interest in the liquid crystalline state.

Full Product Details

Author:   J.W. Emsley
Publisher:   Springer
Imprint:   Springer
Edition:   Softcover reprint of the original 1st ed. 1985
Volume:   141
Dimensions:   Width: 15.50cm , Height: 3.00cm , Length: 23.50cm
Weight:   0.896kg
ISBN:  

9789400965195

ISBN 10:   9400965192
Pages:   592
Publication Date:   12 October 2011
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
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Table of Contents

1. Quantitative Description of Orientational Order: Rigid Molecules.- 2. An Internal Order Parameter Formalism for Non-Rigid Molecules.- 3. Molecular Field Theories of Nematics: Systems Composed of Uniaxial, Biaxial or Flexible Molecules.- 4. The Landau-De Gennes Theory of Liquid Crystals.- 5. NMR Spectra in Liquid Crystals the Partially Averaged Spin Hamiltonian.- 6. Studies of Solutes with Internal Rotors.- 7. Molecular Structure from Dipolar Coupling.- 8. On the Orientation of Small Molecules in Anisotropic Solvents.- 9. Diffusive and Collective Motions in Liquid Crystal Phases.- 10. Density Matrix Formalism for NMR Studies of Liquid Crystals.- 11. Nuclear Spin Relaxation.- 12. Multiple Quantum NMR in Liquid Crystalline Phases.- 13. Dynamics of Molecular Processes by NMR in Liquid Crystalline Solvents.- 14. Discotic Liquid Crystals and their Characterization by Deuterium NMR.- 15. Measurement of Orientational Ordering by NMR.- 16. Determination of Biaxial Structures in Lyotropic Materials by Deuterium NMR.- 17. Phase Biaxiality in the Cholesteric and Blue Phases.- 18. Phase Biaxiality in Some of the Smectic Phases.- 19. Orientational Order Parameters and Mechanisms of Phase Biaxiality.- 20. Amphiphilic Molecules in Lyotropic Liquid Crystals and Micellar Phases.- 21. Structure of the Hydrophobic-Hydrophilic Interface in Lyotropic Liquid Crystals: Counterion Binding Studies.- 22. Solubilizate-Bilayer Interactions in Lamellar Mesophases.- 23. NMR of Liquid Crystalline Lipids in Biological Membranes.

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