Publication | Closed Access
High loading accessible active sites<i>via</i>designable 3D-printed metal architecture towards promoting electrocatalytic performance
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Citations
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References
2019
Year
EngineeringChemistryCatalyst ActivationChemical EngineeringPrinted ElectronicsCatalytic ActivityElectrocatalytic PerformanceMaterials ScienceCatalytic MaterialActive Surface AreaCatalysisElectrochemical Process3D PrintingElectrochemistryAccessible Active SitesNatural SciencesTailor-designed Support ArchitectureHeterogeneous CatalysisCatalyst Preparation
3D printing of a tailor-designed support architecture with a tunable electrochemically active surface area for improving catalyst loading contributions to catalytic activity.
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