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Unveiling the genesis of the high catalytic activity in nickel phthalocyanine for electrochemical ammonia synthesis
104
Citations
49
References
2021
Year
Nipc NanorodsEngineeringActive SitesNanoheterogeneous CatalysisChemistryChemical EngineeringElectrochemical Ammonia SynthesisCatalytic OriginationMaterials ScienceInorganic ChemistryCatalytic MaterialMolecular ElectrochemistryNanotechnologyNickel PhthalocyanineCatalysisHydrogenCatalytic ProcessCatalytic SynthesisElectrochemistryElectrosynthesisHigh Catalytic ActivityCatalyst Preparation
DFT is applied to identify the active sites of NiPc for NRR and its catalytic origination. Accordingly, NiPc nanorods, synthesized by solvothermal method, exhibit NH<sub>3</sub> yield rate of 85 μg h<sup>−1</sup> mg<sub>cat</sub><sup>−1</sup> and FE of 25% at −0.3 V <italic>vs.</italic> RHE.
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