Deactivation mechanism of hydrotalcite-derived Ni–AlOx catalysts during low-temperature CO2 methanation via Ni-hydroxide formation and the role of Fe in limiting this effect

Mebrahtu, Chalachew; Perathoner, Siglinda; Giorgianni, Gianfranco; Chen, Shiming; Centi, Gabriele; Krebs, Florian; Palkovits, Regina; Abate, Salvatore

Published in

Royal Society of Chemistry, Catalysis Science & Technology, 15(9), p. 4023-4035, 2019

DOI: 10.1039/c9cy00744j

Tools

Export citation

Search in Google Scholar

Deactivation mechanism of hydrotalcite-derived Ni–AlOx catalysts during low-temperature CO2 methanation via Ni-hydroxide formation and the role of Fe in limiting this effect

Journal article published in 2019 by Chalachew Mebrahtu

, Siglinda Perathoner

, Gianfranco Giorgianni, Shiming Chen

, Gabriele Centi

, Florian Krebs

, Regina Palkovits

, Salvatore Abate

This paper was not found in any repository, but could be made available legally by the author.

Full text: Unavailable

Preprint: archiving allowed

Upload

Postprint: archiving restricted

Upload

Published version: archiving forbidden

Policy details

Data provided by

Abstract

Ni–Fe/AlO_x with nanosheet structure, enhance the reducibility and stability of the Ni-hydroxide during the catalytic reaction due to the formation of spinel phase which stabilize smaller Ni nanoparticle with a weaker interaction with the support.

Published in

Links

Tools

Deactivation mechanism of hydrotalcite-derived Ni–AlOx catalysts during low-temperature CO2 methanation via Ni-hydroxide formation and the role of Fe in limiting this effect

Abstract