A software framework for analysing solid-state MAS NMR data

An rf-pulse sequence has been developed for homonuclear Hartmann-Hahn cross-polarization by dipolar interactions under magic-angle spinning. The dipolar mixing sequence suppresses isotropic and anisotropic chemical shifts and recovers the homonuclear dipolar interactions. The sequence consists of sp

## Abstract A simple method is reported for temperature calibration of a magic angle spinning probe for solid‐state NMR spectroscopy. The method is an extension of that developed by van Geet for temperature calibration of liquid‐state NMR probes, and consists of measuring the frequency difference (

A method for efficient Hartmann-Hahn cross polarization unú 2) tends toward zero with increasing spinning frequency der rapid magic-angle sample spinning is presented. It combines (4, 5). Although the Hartmann-Hahn transfer at the exact rotor-synchronized amplitude modulation of one of the two spins

## Abstract The high resolution offered by magic‐angle spinning (MAS), when compared to the static condition in solid‐state NMR of powders, has been used to full advantage in a ^14^N MAS NMR study of some ammonium salts: CH~3~NH~3~Cl, (NH~4~)~2~(COO)~2~·H~2~O, (CH~3~)~3~(C~6~H~5~CH~2~)NCl, (CH~3~)~