Issue 34, 2018

The integration of experiment and computational modelling in heterogeneously catalysed ammonia synthesis over metal nitrides

Abstract

In this perspective we present recent experimental and computational progress in catalytic ammonia synthesis research on metal nitrides involving a combined approach. On this basis, it suggested that the consideration of nitrogen vacancies in the synthesis of ammonia can offer new low energy pathways that were previously unknown. We have shown that metal nitrides that are also known to have high activity for ammonia synthesis can readily form nitrogen vacancies on their surfaces. These vacancies adsorb dinitrogen much more strongly than the defect-free surfaces and can efficiently activate the strong N–N triple bond. These fundamental studies suggest that heterogeneously catalysed ammonia synthesis over metal nitrides is strongly affected by bulk and surface defects and that further progress in the discovery of low temperature catalysts relies on more careful consideration of nitrogen vacancies. The potential occurrence of an associative pathway in the case of the Co3Mo3N catalytic system provides a possible link with enzymatic catalysis, which will be of importance in the design of heterogeneous catalytic systems operational under process conditions of reduced severity which are necessary for the development of localised facilities for the production of more sustainable “green” ammonia.

Graphical abstract: The integration of experiment and computational modelling in heterogeneously catalysed ammonia synthesis over metal nitrides

Article information

Article type
Perspective
Submitted
03 ဇူ 2018
Accepted
02 ဩ 2018
First published
03 ဩ 2018
This article is Open Access
Creative Commons BY license

Phys. Chem. Chem. Phys., 2018,20, 21803-21808

The integration of experiment and computational modelling in heterogeneously catalysed ammonia synthesis over metal nitrides

C. D. Zeinalipour-Yazdi, J. S. J. Hargreaves, S. Laassiri and C. R. A. Catlow, Phys. Chem. Chem. Phys., 2018, 20, 21803 DOI: 10.1039/C8CP04216K

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