14 N Solid‐State NMR Spectroscopy of Amino Acids

14 N ultra‐wideline solid‐state NMR (SSNMR) spectra were obtained for 16 naturally occurring amino acids and four related derivatives by using the WURST–CPMG (wideband, uniform rate, and smooth truncation Carr–Purcell–Meiboom–Gill) pulse sequence and frequency‐stepped techniques. The 14 N quadrupolar parameters were measured for the sp 3 nitrogen moieties (quadrupolar coupling constant, C Q , values ranged from 0.8 to 1.5 MHz). With the aid of plane‐wave DFT calculations of the 14 N electric‐field gradient tensor parameters and orientations, the moieties were grouped into three categories according to the values of the quadrupolar asymmetry parameter, η Q : low (≤0.3), intermediate (0.31–0.7), and high (≥0.71). For RNH 3 + moieties, greater variation in N−H bond lengths was observed for systems with intermediate η Q values than for those with low η Q values (this variation arose from different intermolecular hydrogen‐bonding arrangements). Strategies for increasing the efficiency of 14 N SSNMR spectroscopy experiments were discussed, including the use of sample deuteration, high‐power 1 H decoupling, processing strategies, high magnetic fields, and broadband cross‐polarization (BRAIN‐CP). The temperature‐dependent rotations of the NH 3 groups and their influence on 14 N transverse relaxation rates were examined. Finally, 14 N SSNMR spectroscopy was used to differentiate two polymorphs of l ‐histidine through their quadrupolar parameters and transverse relaxation time constants. The strategies outlined herein permitted the rapid acquisition of directly detected 14 N SSNMR spectra that to date was not matched by other proposed methods.