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Steering from electrochemical denitrification to ammonia synthesis

Huan Li, Jun Long, Huijuan Jing, Jianping Xiao

2023Nature Communications48 citationsDOIOpen Access PDF

Abstract

Abstract The removal of nitric oxide is an important environmental issue, as well as a necessary prerequisite for achieving high efficiency of CO 2 electroreduction. To this end, the electrocatalytic denitrification is a sustainable route. Herein, we employ reaction phase diagram to analyze the evolution of reaction mechanisms over varying catalysts and study the potential/pH effects over Pd and Cu. We find the low N 2 selectivity compared to N 2 O production, consistent with a set of experiments, is limited fundamentally by two factors. The N 2 OH* binding is relatively weak over transition metals, resulting in the low rate of as-produced N 2 O* protonation. The strong correlation of OH* and O* binding energies limits the route of N 2 O* dissociation. Although the experimental conditions of varying potential, pH and NO pressures can tune the selectivity slightly, which are insufficient to promote N 2 selectivity beyond N 2 O and NH 3 . A possible solution is to design catalysts with exceptions to break the scaling characters of energies. Alternatively, we propose a reverse route with the target of decentralized ammonia synthesis.

Topics & Concepts

SelectivityCatalysisDenitrificationDissociation (chemistry)ChemistryElectrochemistryAmmoniaAmmonia productionProtonationInorganic chemistryElectrodeNitrogenPhysical chemistryOrganic chemistryIonAmmonia Synthesis and Nitrogen ReductionCaching and Content DeliveryCO2 Reduction Techniques and Catalysts
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