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Mechanism of ammonia oxidation to dinitrogen, nitrite, and nitrate on β‐Ni(OH) <sub>2</sub> from first‐principles simulations

Rachelle M. Choueiri, Stephen W. Tatarchuk, Anna Klinkova, Leanne D. Chen

2021Electrochemical Science Advances70 citationsDOIOpen Access PDF

Abstract

Abstract The electrocatalyzed ammonia oxidation reaction (AOR) is a potential pathway toward waste ammonia remediation, energy generation, and the synthesis of value‐added products. To date, mechanistic studies have focused on elucidating the progress of AOR on Pt‐based catalysts with an established pathway for only. In this work, density functional theory was applied to determine the lowest energy intermediates toward nitrogen gas, nitrite, and nitrate formation on ‐, a promising electrocatalyst material for AOR. It was found that dinitrogen formation progresses via NH‐NH coupling, whereas nitrite and nitrate formation occurs via deprotonation of ammonia to form adsorbed N and subsequent hydroxylation to form oxygenated intermediates. This work is the first to report a mechanism for nitrite and nitrate formation and will also serve as a benchmark for future studies on Ni‐based materials.

Topics & Concepts

ChemistryNitriteNitrateAmmoniaElectrocatalystInorganic chemistryCatalysisDeprotonationAmmonia productionReaction mechanismOrganic chemistryElectrochemistryElectrodePhysical chemistryIonAmmonia Synthesis and Nitrogen ReductionAdvanced Photocatalysis TechniquesElectrocatalysts for Energy Conversion
Mechanism of ammonia oxidation to dinitrogen, nitrite, and nitrate on β‐Ni(OH) <sub>2</sub> from first‐principles simulations | Litcius