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Highly loaded bimetallic iron-cobalt catalysts for hydrogen release from ammonia.

Shilong ChenJelena JelicDenise ReinSharif NajafishirtariFranz-Philipp SchmidtFrank GirgsdiesLiqun KangAleksandra WandzilakAnna RabeDmitry E DoronkinJihao WangKlaus Friedel OrtegaSerena DeBeerJan-Dierk GrunwaldtRobert SchlöglThomas LunkenbeinFelix StudtMalte Behrens
Published in: Nature communications (2024)
Ammonia is a storage molecule for hydrogen, which can be released by catalytic decomposition. Inexpensive iron catalysts suffer from a low activity due to a too strong iron-nitrogen binding energy compared to more active metals such as ruthenium. Here, we show that this limitation can be overcome by combining iron with cobalt resulting in a Fe-Co bimetallic catalyst. Theoretical calculations confirm a lower metal-nitrogen binding energy for the bimetallic catalyst resulting in higher activity. Operando spectroscopy reveals that the role of cobalt in the bimetallic catalyst is to suppress the bulk-nitridation of iron and to stabilize this active state. Such catalysts are obtained from Mg(Fe,Co) 2 O 4 spinel pre-catalysts with variable Fe:Co ratios by facile co-precipitation, calcination and reduction. The resulting Fe-Co/MgO catalysts, characterized by an extraordinary high metal loading reaching 74 wt.%, combine the advantages of a ruthenium-like electronic structure with a bulk catalyst-like microstructure typical for base metal catalysts.
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