Journal
NATURE CATALYSIS
Volume 6, Issue 5, Pages 392-401Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41929-023-00949-w
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We propose a blocking strategy using cyclohexanol to mitigate the detrimental impacts of Nafion ionomer. Cyclohexanol blocks the adsorption path of the ionomer onto the Pt surface via coordination, releasing the Pt activity sites and dramatically improving mass transport.
The specific adsorption of ionomer sulfonate groups on Pt-based catalysts in membrane electrode assemblies (MEAs) has severely restricted Pt catalytic activity, Pt utilization, proton conductivity and mass transport. Here we report a blocking strategy using cyclohexanol to mitigate the detrimental impacts of the Nafion ionomer. Cyclohexanol with a chair or boat conformation blocked the adsorption path of the ionomer onto the Pt surface via coordination with the ionomer, which released the Pt activity sites and dramatically improved the mass transport path. This MEA with cyclohexanol exhibits striking performance improvement in the kinetic and mass transport regions, along with strong stability. The proposed strategy provides a direction to tune the Pt/ionomer interface and improve the catalytic activity of Pt in MEA.
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