NiCu Alloy/Perovskite Nanoparticle Catalyst for Methanol Steam Reforming via Prereduction and In Situ Exsolution Technology

Abstract: perovskite nanomaterial with in situ-exsolved metallic nanoparticles (Re-LCMNCu) was fabricated successfully and acted as a catalyst for methanol steam reforming. Due to the fine and uniform NiCu alloy nanoparticles (∼35 nm) exsolved from the ceramic substrate, Re-LCMNCu displayed a stable conversion of methanol above 99% at 350 °C and maintained a hydrogen production rate of 285 mmol h −1 g cat −1 for 60 h, with a negligible amount of CO in the outlet gas. The NiCu alloy played an important role in catalytic … Show more

“…The oxygen vacancies on the surface can promote water molecule adsorption and dissociation. 18 Embedding active metals in the perovskite and modulating the active phase structure could be an effective approach to enhance the catalytic activity for the methanol reforming process and hydrogen production.…”

Modulating the active phase in perovskite LaCoO₃ with B-site doping of Cu for efficient methanol reforming to produce hydrogen

“…The oxygen vacancies on the surface can promote water molecule adsorption and dissociation. 18 Embedding active metals in the perovskite and modulating the active phase structure could be an effective approach to enhance the catalytic activity for the methanol reforming process and hydrogen production.…”

Modulating the active phase in perovskite LaCoO₃ with B-site doping of Cu for efficient methanol reforming to produce hydrogen

Sorption enhanced steam reforming of biomass-based feedstocks: Towards sustainable hydrogen evolution

Coupling phyllosilicate and NiCo alloy nanoparticles on sepiolite to enhance stability for hydrogen production by ethanol steam reforming