Publication | Closed Access
Construction of Ru/FeCoP heterointerface to drive dual active site mechanism for efficient overall water splitting
44
Citations
56
References
2022
Year
Materials ScienceChemical EngineeringWater-splitting EfficiencyDual-active Site MechanismEngineeringWater ElectrolyzersRu/fecop HeterointerfaceChemistryHydrogenRuo 2Water SplittingFunctional MaterialsElectrochemistry
The water-splitting efficiency is improved by Ru/FeCoP heterointerface to drive dual-active site mechanism. The η 100 of Ru@FeCoP are 0.0741 V for HER and 0.314 V for OER, which is reduced by 63.8% and 55.2% over Pt/C and RuO 2 , respectively.
| Year | Citations | |
|---|---|---|
Page 1
Page 1