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Performance of AISI 316L-stainless steel foams towards the formation of graphene related nanomaterials by catalytic decomposition of methane at high temperature

[Display omitted] •Activated stainless steel foams are active and selective to form Graphene Related Materials.•The maximum productivity was attained at 950 °C and CH4/H2 = 3.•Few Layer Graphene and graphene are obtained at T > 900 °C.•A rapid carburization of the Fe nanoparticles favours the pro...

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Bibliographic Details
Published in:Catalysis today 2022-01, Vol.383, p.236-246
Main Authors: Cazaña, F., Latorre, N., Tarifa, P., Royo, C.J., Sebastián, V., Romeo, E., Centeno, M.A., Monzón, A.
Format: Article
Language:English
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Summary:[Display omitted] •Activated stainless steel foams are active and selective to form Graphene Related Materials.•The maximum productivity was attained at 950 °C and CH4/H2 = 3.•Few Layer Graphene and graphene are obtained at T > 900 °C.•A rapid carburization of the Fe nanoparticles favours the productivity inhibiting the deactivation. This work explores the preparation of graphene-related materials (GRMs) grown on stainless steel foams via catalytic decomposition of methane (CDM). The main active phases for the reaction are the Fe nanoparticles segregated from the stainless-steel after the activation stage of the foam. The effect of the feed composition and reaction temperature has been studied in order to maximize the productivity, stability and selectivity to GRMs. The maximum productivity attained was 0.116 gC/gfoam h operating at 950 °C with a feed ratio of CH4/H2 = 3 (42.9 %CH4:14.3 %H2). The carbonaceous nanomaterials (CNMs) obtained were characterized by X-Ray diffraction, Raman spectroscopy and by transmission and scanning electron microscopy. The parameters of the kinetic model developed are directly related to the relevant stages of the process, including carburization, diffusion-precipitation and deactivation-regeneration. The balance among these sequential stages determines the overall performance of the activated foam. In conditions of rapid carburization of the Fe NPs (pCH4 > 14 %), the productivity to CNMs is favoured, avoiding an initial deactivation of the active sites by fouling with amorphous carbon. After a rapid carburization, the selectivity to the different CNMs is governed by the ratio CH4/H2, and mainly by the temperature. Thus, the formation of GRMs, mainly Few Layer Graphene (FLG) and even graphene, is favoured at temperatures above 900 °C. At lower temperatures, carbon nanotubes are formed.
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2020.12.003