Quadrupole effects in solid-state NMR spectra of spin-½ Nuclei: A perturbation approach

## Abstract ^7^Li, ^23^Na and ^13^C solid‐state NMR spectroscopy under static and magic angle spinning conditions was used to study the salt complexes of lithium chloride, lithium bromide, lithium perchlorate and lithium nitrate with 12‐crown‐4 and of sodium nitrate with 15‐crown‐5, Structural and

## Abstract Dynamic nuclear polarization of nuclear spins via the solid‐state and thermal mixing effects is discussed. Continuous‐wave S‐ and X‐band microwave radiation have been employed to measure ^13^C signal enhancements and polarization times for ^13^C nuclei in a natural type Ib diamond as a

## Abstract A simple procedure is presented for the determination of the asymmetry parameter of the electric field gradient, the quadrupole coupling constant, the second‐order quadrupolar shift and the isotropic chemical shift of quadrupolar nuclei with half‐integer spin directly from the experimen

Solid-state, CP-MAS, 119 Sn NMR spectra were measured for a plexes has involved solution studies of the isotropic tin-119 series of para-substituted triaryltin(pentacarbonyl)manganese(I) chemical shifts and spin-spin coupling ( n J C-Sn ) between 13 C complexes. All the spectra show an asymmetric se

Three population transfer techniques for improving the sensitivity of the central transition of NMR spectra from half-integer quadrupolar nuclei in the solid state are described. Two of the methods attempt to invert the populations of energy levels associated with the satellite transitions either by