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- Title
Low‐Temperature Direct Electrochemical Methanol Reforming Enabled by CO‐Immune Mo‐Based Hydrogen Evolution Catalysts.
- Authors
Bau, Jeremy A.; Rueping, Magnus
- Abstract
Hydrogen storage in the form of intermediate artificial fuels such as methanol is important for future chemical and energy applications, and the electrochemical regeneration of hydrogen from methanol is thermodynamically favorable compared to direct water splitting. However, CO produced from methanol oxidation can adsorb to H2‐evolution catalysts and drastically reduce activity. In this study, we explore the origins of CO immunity in Mo‐containing H2‐evolution catalysts. Unlike conventional catalysts such as Pt or Ni, Mo‐based catalysts display remarkable immunity to CO poisoning. The origin of this behavior in NiMo appears to arise from the apparent inability of CO to bind Mo under electrocatalytic conditions, with mechanistic consequences for the H2‐evolution reaction (HER) in these systems. This specific property of Mo‐based HER catalysts makes them ideal in environments where poisons might be present.
- Subjects
CATALYSTS; SYNTHETIC fuels; OXIDATION of methanol; CHEMICAL energy; METHANOL as fuel; METHANOL
- Publication
Chemistry - A European Journal, 2021, Vol 27, Issue 35, p8960
- ISSN
0947-6539
- Publication type
Article
- DOI
10.1002/chem.202100876