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Electroreduction of N<sub>2</sub> to ammonia at ambient conditions using transition metal nitride catalysts
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Biosensors & Bioelectronics

ISSN: 2155-6210

Open Access

Electroreduction of N2 to ammonia at ambient conditions using transition metal nitride catalysts


13th International Conference on Electrochemistry

May 27-28, 2019 | Barcelona, Spain

Fatemeh Hanifpour, Arnar Sveinbjornsson, Tryggvi Tryggvason, Arni Sigurour Ingason, Fridrik Magnus, Younes Abghoui, Helga Dogg Flosadottir, Egill Skulason

University of Iceland, Iceland

Posters & Accepted Abstracts: J Biosens Bioelectron

Abstract :

Ammonia synthesis through the Nobel prize awarded Haber-Bosch process produces around 1.6-3.8 tons of CO2 per ton of NH3 produced and the process operates at high temperatures and pressures using H2 and N2 as feedstocks, where H2 is derived from gas/oil/coal reforming. Thus, finding a simple, sustainable, low cost and energy efficient alternative is critically important. In this work, electrochemical nitrogen reduction to ammonia is reported at ambient temperature and pressure in aqueous electrolyte using a thin film zirconium nitride catalyst. Ammonia is synthesized inside an electrochemical micro reactor and measured simultaneously through an in-line connection to ammonia quantification unit. A novel electrochemical technique is introduced to optimize the reaction rate and current efficiency of the nitrogen reduction. Control experiments are run to confirm that ammonia is produced catalytically and not by reacting the inherent nitrogen in the catalystâ??s structure; these include concentrating the electrolyte with Ar(g) as background test and the use of 15N isotope labelled catalysts. There is a clear difference between the Ar and N2 experiments and the isotope labelling experiment reveals that within the correct range of applied potential ammonia is produced through electrocatalysis

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Citations: 6207

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