Publication | Closed Access
Anodic fabrication of nanostructured Cu<sub>x</sub>S and CuNiS<sub>x</sub> thin films and their hydrogen evolution activities in acidic electrolytes
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Citations
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References
2019
Year
Materials ScienceChemical EngineeringElectrochemical Anodization MethodEngineeringHydrogen Evolution ActivitiesNanomaterialsElectrode-electrolyte InterfaceSurface ElectrochemistrySurface ScienceAcidic ElectrolytesAnodic FabricationChemistryDirect GrowthElectrochemical ProcessElectrode Reaction MechanismElectrochemistryAnodizingElectrochemical Surface Science
The electrochemical anodization method is advantageous for direct growth of highly ordered and large surface area hybrid nanostructures.
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