Here we investigated the dynamics of OER activity of NiFe (90/10) catalysts over 1000 potential sweep cycles as a function of their mass loading. Over twenty different films with mass loading in the 10 ng/cm2-30 mu g/cm2 range were deposited by Supersonic Cluster Beam Deposition (SCBD), allowing to study the progress of OER in sub-monolayer, monolayer and multilayer regimes. Upon prolonged potential sweeps the electrocatalytic performances of multilayers decreased, while those of monolayers were significantly improved. The best balance in terms of catalytic efficiency and stability in working conditions is found for mass loadings corresponding to a NiFe monolayer, corresponding to a mass loading around 1 mu g/cm2 and a thickness of about 3 nm.The Oxygen Evolution Activity of NiFe films with different thickness was monitored over 1000 potential sweep cycles, revealing the optimal mass loading needed to maintain catalytic activity while avoiding excessive material consumption. image
Ciambriello, L., Alessandri, I., Gavioli, L., Vassalini, I., NiFe Catalysts for Oxygen Evolution Reaction: Is There an Optimal Thickness for Generating a Dynamically Stable Active Interface?, <<CHEMCATCHEM>>, 2024; (N/A): 1-8. [doi:10.1002/cctc.202400286] [https://hdl.handle.net/10807/278818]
NiFe Catalysts for Oxygen Evolution Reaction: Is There an Optimal Thickness for Generating a Dynamically Stable Active Interface?
Ciambriello, Luca;Gavioli, Luca
;
2024
Abstract
Here we investigated the dynamics of OER activity of NiFe (90/10) catalysts over 1000 potential sweep cycles as a function of their mass loading. Over twenty different films with mass loading in the 10 ng/cm2-30 mu g/cm2 range were deposited by Supersonic Cluster Beam Deposition (SCBD), allowing to study the progress of OER in sub-monolayer, monolayer and multilayer regimes. Upon prolonged potential sweeps the electrocatalytic performances of multilayers decreased, while those of monolayers were significantly improved. The best balance in terms of catalytic efficiency and stability in working conditions is found for mass loadings corresponding to a NiFe monolayer, corresponding to a mass loading around 1 mu g/cm2 and a thickness of about 3 nm.The Oxygen Evolution Activity of NiFe films with different thickness was monitored over 1000 potential sweep cycles, revealing the optimal mass loading needed to maintain catalytic activity while avoiding excessive material consumption. imageI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.