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Dry reforming of methane over single-atom Rh/Al 2 O 3 catalysts prepared by exsolution.

Martijn J MekkeringJasper BiemoltJeen de GraafYi-An LinNicolaas P van LeestAlessandro TrogliaRoland BliemBas de BruinGadi RothenbergNing Yan
Published in: Catalysis science & technology (2023)
Single-atom catalysts often show exceptionally high performance per metal loading. However, the isolated atom sites tend to agglomerate during preparation and/or high-temperature reaction. Here we show that in the case of Rh/Al 2 O 3 this deactivation can be prevented by dissolution/exsolution of metal atoms into/from the support. We design and synthesise a series of single-atom catalysts, characterise them and study the impact of exsolution in the dry reforming of methane at 700-900 °C. The catalysts' performance increases with increasing reaction time, as the rhodium atoms migrate from the subsurface to the surface. Although the oxidation state of rhodium changes from Rh(iii) to Rh(ii) or Rh(0) during catalysis, atom migration is the main factor affecting catalyst performance. The implications of these results for preparing real-life catalysts are discussed.
Keyphrases
  • highly efficient
  • electron transfer
  • molecular dynamics
  • transition metal
  • metal organic framework
  • high temperature
  • anaerobic digestion
  • carbon dioxide
  • visible light
  • room temperature
  • reduced graphene oxide