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- Title
Molybdenum‐based Nanocatalysts for CO Oxidation Reactions in Direct Alcohol Fuel Cells: A Critical Review.
- Authors
Yeetsorn, Rungsima; Kumar Yogesh, Gaurav; Wanchan, Waritnan; Koinkar, Pankaj; Yadav, Kamlesh
- Abstract
Carbon monoxide (CO) oxidation is crucial in fuel cell anodes. Recent research has focused on electrocatalysts that synergistically enhance CO oxidation alongside alcohol/hydrogen oxidation. High sensitivity and selectivity for CO oxidation at lower onset potentials are the key objectives. Molybdenum (Mo) has emerged as a promising non‐noble transition metal co‐catalyst for CO oxidation. Mo versatility arises from its ability to alloy with Pt and mix with other non‐noble transition metals in various forms (MoOx, MoS2, MoC). Carbon‐supported Mo nanoparticles have shown potential in reducing Pt loading and improving CO tolerance due to Mo oxyphilic properties, effectively oxidizing weakly adsorbed CO and lowering onset and peak potentials. However, challenges persist, such as a limited potential window for CO oxidation and decreased CO adsorption affinity at higher potentials. Addressing these issues requires understanding factors affecting Mo‐based electrocatalysts (Mo‐ECs) activity, including PtMo alloy composition, Mo′s chemical state, cell temperature, and the role of carbon support. This article provides a comprehensive review of Mo‐ECs role in CO electrooxidation in direct alcohol fuel cells (DAFCs) over the past two decades.
- Subjects
ALCOHOL as fuel; FUEL cells; NANOPARTICLES; HYDROGEN oxidation; OXIDATION; OXYGEN reduction; OXIDATION of methanol
- Publication
ChemCatChem, 2023, Vol 15, Issue 22, p1
- ISSN
1867-3880
- Publication type
Article
- DOI
10.1002/cctc.202301040