Fast and Sensitive Detection of Ammonia from Electrochemical Nitrogen Reduction Reactions by <sup>1</sup>H NMR with Radiation Damping
Aya Assafiri, Chen Jia, Donald S. Thomas, David Brynn Hibbert, Chuan Zhao
Abstract
Abstract A facile NMR method is reported for analysis of ammonia from the electrochemical reduction of nitrogen, which compares a calibrated colorimetric method, a calibrated 1 H NMR method and two 1 H NMR direct measurements using external reference materials. Unlike spectrophotometric methods, 1 H NMR requires less bench time and does not require separation of ammonia from the electrolyte. A novel approach to the problem of radiation damping in NMR measurements considered the specific role of hardware tuning. Radiation damping is suppressed improving signal‐to‐noise ratio and detection limit (1.5 µg L −1 ). The method is demonstrated to be effective for the analysis of ammonia from direct electrochemical nitrogen reduction in KOH, and from lithium‐mediated nitrogen reduction in a non‐aqueous solution. An uncertainty budget is prepared for the measurement of ammonia.