Publication | Closed Access
Selenium vacancy-rich CoSe<sub>2</sub> ultrathin nanomeshes with abundant active sites for electrocatalytic oxygen evolution
137
Citations
37
References
2019
Year
EngineeringNanoheterogeneous CatalysisChemistryNanoscale ChemistryNanostructure SynthesisMaterials ScienceAbundant Active SitesNanotechnologySurface ElectrochemistryNanomanufacturingExcellent Oer PerformanceFunctional MaterialsCatalysisElectrochemistryOxygen Reduction ReactionNanomaterialsPlasma-exfoliation MethodAbundant Selenium VacanciesElectrocatalytic Oxygen Evolution
CoSe<sub>2</sub> ultrathin nanomeshes with abundant selenium vacancies have been synthesized through a plasma-exfoliation method and exhibit an excellent OER performance.
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