Journal
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
Volume 8, Issue 7, Pages 2672-2681Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acssuschemeng.9b05983
Keywords
nitrate reduction; ammonia; electrocatalysis; electrolyte engineering; titanium
Categories
Funding
- VILLUM FONDEN [9455]
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Nitrates from agricultural runoff and industrial waste streams are a notorious waste product and hazardous pollutant. Traditional electrochemical water remediation approaches aim to solve this problem by converting nitrates to environmentally benign N-2 while minimizing the production of environmentally hazardous side products such as ammonia and nitrous oxide in a process known as denitrification. We modify this concept and outline an opportunity to optimize the conversion of nitrates into ammonia, which is also a key commodity product used as a fertilizer, potential fuel, and chemical precursor. The electrochemical conversion of nitrates to ammonia recycles the fixed nitrogen and offers an appealing and supplementary alternative to the energy- and resource-intensive Haber-Bosch process. In this study, we investigated the effect of varying electrochemical conditions (pH, nitrate concentration, and applied potential) on the selective reduction of nitrate to ammonia at a titanium cathode. We observed that high concentrations of both protons and nitrate ions are needed to achieve high selectivity, reaching a peak of 82% Faradaic efficiency to ammonia at an applied potential of -1 V versus RHE and a partial current density to NH3 of -22 mA/cm(2), using 0.4 M [NO3-] at pH similar to 0.77. The Ti electrode, as a poor hydrogen evolution catalyst with notable corrosion resistance, provides a large window of operating conditions to achieve high selectivity in the reduction of nitrate anions. Stability of the system was evaluated, and we found a high Faradaic efficiency throughout the course of an 8 h experiment. After electrochemical testing, titanium hydride was observed at the cathode surface. We also show a preliminary technoeconomic study, indicating that it may be feasible to employ an electrochemical strategy for the production of ammonium nitrate.
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