Abstract
Pd@CdS@ZnO core-shell nanorods (NRs) have been prepared by using novel an easy chemical synthesis process. The superior catalytic activity of Pd@CdS@ZnO nanorods is attributable to the effective separation of electrons-hole pairs. The excitation-wavelength-dependent catalytic performance of Pd@CdS@ZnO NRs showed significant enhancement at the wavelengths analogous to the CdS layer. The recyclability results revealed a strong ability for the degradation of toxic organic pollutants with favorable reusable photocatalytic efficiency. Electrochemical impedance and photocurrent detection analysis further confirmed a reduced in the charge transfer resistance of Pd@CdS@ZnO NRs owing to embedded Pd NPs and coating of a CdS layer on ZnO NRs.
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