Contrast in solid-state NMR imaging part I: Principles

Basic filters are described for preparation of magnetization in imaging. The filters are based on relaxation times, chemical shift selectivity, field distortions from susceptibility differences, and on relaxation during multipulse excitation for manipulation of the dipole ᎐ dipole interaction in sol

¨ABSTRACT: NMR imaging has been shown to be a viable and useful approach to exploring spatial chemistry and molecular dynamics of a wide range of materials. NMR provides image contrast which is fundamentally different from that of other methods. The principles of NMR imaging and spatial information

Advanced filters are described for preparing magnetization in imaging. They are based on combinations of different filters for introducing combined parameter weights ᎏ including spin diffusion weights ᎏ and on multiple-quantum coherences. Exploitation of spectroscopic dimensions for generating contr

A novel 1 H imaging method for solids, yielding images reflecting 1 H-13 C dipolar interactions through cross relaxation time T IS , is presented. Phase-alternating multiple-contact cross polarization (PAMC CP) was incorporated into the magic-echo frequencyencoding imaging scheme; the PAMC CP sequen