Volume 243, 2023
From the journal:

Faraday Discussions

Electrochemical nitrogen reduction reaction over gallium – a computational and experimental study

Vivek Sinha, ORCID logo *a   Fateme Rezai,b   Nihat Ege Sahin, ORCID logo b   Jacopo Catalano,b   Espen Drath Bøjesen, ORCID logo c   Farnaz Sotoodeh*a  and  Emil Dražević*b  

* Corresponding authors

a C2CAT B.V., Magnoliastraat 13, Lisserbroek 2165CK, The Netherlands
E-mail: vivek.sinha@c2cat.eu, farnaz.sotoodeh@c2cat.eu

b Department of Biological and Chemical Engineering – Process and Materials Engineering, Aarhus University, Åbogade 40, Aarhus N 8200, Denmark
E-mail: edrazevic@bce.au.dk

c Interdisciplinary Nanoscience Center & Aarhus University Centre for Integrated Materials Research, Aarhus University, Gustav Wieds Vej 14, Aarhus C 8000, Denmark

Abstract

Ga was identified earlier as one of the “overlooked” metals for catalyzing the electrochemical nitrogen reduction reaction (ENRR). We investigate here the electrocatalytic activity of Ga towards the nitrogen reduction reaction. We used a combination of molecular modelling and simulations using periodic density functional theory calculations (DFT), and experimental ENRR measurements. The ENRR was found to proceed via an associative mechanism where the first PCET to dinitrogen forming the surface adsorbed N2H* species is the overpotential limiting step. The bare Ga cathode has a high overpotential (>2 V (SHE)) for the ENRR. We also investigated the effect of a water-in-salt electrolyte (WISE) on the rate of ammonia formation. The addition of an Li salt lowers the overpotential to 1.88 V (SHE). DFT calculations revealed that the H-adatom was more favorably bound than the N-adatom, and the hydrogen evolution reaction (HER) is expected to dominate at high cathodic potentials. Experimental ENRR tests corroborate our results wherein no significant NH3 formation was detected. The low electrochemical activity of Ga is attributed to poor binding and activation of N2 which originates from an electropositive surface charge distribution.

Graphical abstract: Electrochemical nitrogen reduction reaction over gallium – a computational and experimental study

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DOI
https://doi.org/10.1039/D2FD00169A
Article type
Paper
Submitted
26 Nov 2022
Accepted
22 Dec 2022
First published
23 Dec 2022
This article is Open Access
Creative Commons BY-NC license

Faraday Discuss., 2023,243, 307-320

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Electrochemical nitrogen reduction reaction over gallium – a computational and experimental study

V. Sinha, F. Rezai, N. E. Sahin, J. Catalano, E. D. Bøjesen, F. Sotoodeh and E. Dražević, Faraday Discuss., 2023, 243, 307 DOI: 10.1039/D2FD00169A

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