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Highly active and thermostable submonolayer La(NiCo)O Δ catalyst stabilized by a perovskite LaCrO 3 support.

Tingting ZhaoJiankang ZhaoXuyingnan TaoHaoran YuMing LiJie ZengHaiqian Wang
Published in: Communications chemistry (2022)
It is important to develop highly active and stable catalysts for high temperature reactions, such as dry reforming of methane. Here we show a La(NiCo)O Δ (LNCO) submonolayer catalyst (SMLC) stabilized by the surface lattice of a perovskite LaCrO 3 support and demonstrate a Ni-Co synergistic effect. The submonolayer/support type catalyst was prepared by in-situ hydrogen reduction of a LaNi 0.05 Co 0.05 Cr 0.9 O 3 precursor synthesized by a sol-gel method. The LNCO-SMLC is highly active and very stable during a 100 h on stream test at 750 °C under the reaction conditions of dry reforming of methane. The catalyst also shows good anti-coking ability. We found that the synergistic effect between Ni and Co atoms in LNCO-SMLC remarkably improved the thermostability of the catalyst. This work provides a useful concept for designing atomically dispersed catalysts with high thermostability.
Keyphrases
  • room temperature
  • metal organic framework
  • highly efficient
  • carbon dioxide
  • ionic liquid
  • reduced graphene oxide
  • visible light
  • high temperature
  • transition metal
  • high efficiency