JPhys Materials (Jan 2023)

Sequential deposition of FeNC–Cu tandem CO2 reduction electrocatalysts towards the low overpotential production of C2+ alcohols

  • Nattaphon Hongrutai,
  • Saurav Ch Sarma,
  • Yuxiang Zhou,
  • Simon Kellner,
  • Angus Pedersen,
  • Kari Adourian,
  • Helen Tyrrell,
  • Mary P Ryan,
  • Joongjai Panpranot,
  • Jesús Barrio

DOI
https://doi.org/10.1088/2515-7639/ad0d7c
Journal volume & issue
Vol. 7, no. 1
p. 015007

Abstract

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Tandem CO _2 reduction electrocatalysts that combine a material that selectively produces CO with Cu are capable of producing hydrocarbons at low overpotentials and high selectivity. However, controlling the spatial distribution and the catalytic activity of the CO-making catalyst remains a challenge. In this work, a novel tandem electrocatalyst that overcomes limitations of simple Cu catalysts, namely selectivity and efficiency at low overpotential, is presented. The tandem electrocatalysts are prepared through a sequential spray coating protocol, using a single atom Fe in N-doped C (FeNC) as the selective CO-producing catalyst and commercial Cu nanopowder. The high faradaic efficiency towards CO of FeNC (99% observed at −0.60 V vs. RHE) provides a high CO coverage to the Cu particles, leading to reduced hydrogen evolution and the selective formation of ethanol and n -propanol at a much low overpotential than that of bare Cu.

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