Efficient Ammonia Electrosynthesis and Energy Conversion through a Zn-Nitrate Battery by Iron Doping Engineered Nickel Phosphide Catalyst

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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Detail(s)

Original languageEnglish
Article number2103872
Journal / PublicationAdvanced Energy Materials
Volume12
Issue number13
Online published9 Feb 2022
Publication statusPublished - 7 Apr 2022

Abstract

The electrocatalytic nitrate reduction reaction (NO3-RR) to ammonia (NH3) offers a promising alternative approach for NH3 production and nitrate-based voltaic cells which can deliver both electricity and NH3 as products, are also highly attractive. However, nitrate-to-NH3 conversion involves a proton-assisted multiple-electron transfer process with considerable kinetic barrier, underlying the need for efficient catalysts for the NO3RR. A Zn-nitrate battery is reported to enable a “killing three birds with one stone” strategy for energy supply, ammonia production and removal of pollutants with the iron doped nickel phosphide (Fe/Ni2P) as a NO3RR catalyst electrode. Iron doping induces a downshift of the d-band center of Ni atoms to the Fermi level, allowing the optimization of Gibbs free energies for reaction intermediates. The Fe/Ni2P catalyst exhibits 94.3% NH3 Faradaic efficiency (FE) and nearly 100% nitrate conversion efficiency at –0.4 V vs. reversible hydrogen electrode (RHE). Further applying this highly efficient NO3RR electrocatalyst as the cathode material, a novel Zn-nitrate battery exhibits a power density of 3.25 mW cm–2 and a FE of 85.0% for NH3 production. This work enriches the application of Zn-based batteries in the field of electrocatalysis and highlights the promise of bimetal phosphide for the NO3RR.

Research Area(s)

  • ammonia electrosynthesis, electronic engineering, iron-doped nickel phosphide, nitrate reduction reaction, Zn-nitrate batteries

Citation Format(s)

Efficient Ammonia Electrosynthesis and Energy Conversion through a Zn-Nitrate Battery by Iron Doping Engineered Nickel Phosphide Catalyst. / Zhang, Rong; Guo, Ying; Zhang, Shaoce et al.
In: Advanced Energy Materials, Vol. 12, No. 13, 2103872, 07.04.2022.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review