Synthesis and methane cracking activity of a silicon nitride supported vanadium nitride nanoparticle composite

Synthesis and methane cracking activity of a silicon nitride supported vanadium nitride nanoparticle composite

The co-ammonolysis of V(NMe ) and Si(NHMe) with ammonia in THF and in the presence of ammonium triflate ([NH ][CF SO ]) leads to the formation of monolithic gels. Pyrolysing these gels produces mesoporous composite materials containing nanocrystalline VN and amorphous silicon imidonitride. Elemental...

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Veröffentlicht in:Dalton transactions : an international journal of inorganic chemistry 2017, Vol.46 (27), p.8782-8787
Hauptverfasser: AlShibane, Ihfaf, Hargreaves, Justin S J, Hector, Andrew L, Levason, William, McFarlane, Andrew
Format: Artikel
Sprache:eng
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Zusammenfassung:The co-ammonolysis of V(NMe ) and Si(NHMe) with ammonia in THF and in the presence of ammonium triflate ([NH ][CF SO ]) leads to the formation of monolithic gels. Pyrolysing these gels produces mesoporous composite materials containing nanocrystalline VN and amorphous silicon imidonitride. Elemental mapping indicated a thorough distribution of VN with no evidence of large cluster segregation. Whilst not active for ammonia synthesis, the silicon nitride based materials were found to possess activity for the CO -free production of H from methane, which makes them candidates for applications in which the presence of low levels of CO in H feedstreams is detrimental.
ISSN:1477-9226
1477-9234
DOI:10.1039/c7dt00285h