Principles of Nuclear Magnetic Resonance Microscopy

Author:

Callaghan Paul T1

Affiliation:

1. Department of Physics and Biophysics Massey University New Zealand

Abstract

Abstract Nuclear magnetic resonance imaging is best known for its spectacular use in medical tomography. However, the method has potential applications in biology, materials science, and chemical physics, some of which have begun to be realized as laboratory NMR spectrometers have been adapted to enable small scale imaging. NMR microscopy has available a rich variety of contrast including molecular specificity and sensitivity to molecular dynamics. In NMR imaging the signal is acquired in k-space, a dimension which bears a Fourier relationship with the positions of nuclear spins. A dynamic analogue of k-space imaging is the Pulsed Gradient Spin Echo (PGSE) experiment in which the signal is acquired in q-space, conjugate to the distances moved by the spins over a well-defined time interval. q-space microsocpy provides images of the nuclear self-correlation function with a resolution some two orders of magnitude better than is possible in imaging the nuclear density. As well as revealing the spectrum of molecular motion, PGSE NMR can be used to study morphology in porous systems through the influence of motional boundaries. This book explores principles and common themes underlying these two variants of NMR Microscopy, providing many examples of their use. The methods discussed here are of importance in fundamental biological and physical research, as well as having applications in a wide variety of industries, including those concerned with petrochemicals, polymers, biotechnology, food processing, and natural product processing.

Publisher

Oxford University PressOxford

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