The present work aims to study the photocatalytic activity of vertically-aligned MnxZn1-xO nanorods (x= 0, 0.05, 0.1, 0.15 and 0.2) by optical, electrochemical analyses and rhodamine B (RhB) degradation.Therefore, high density of MnxZn1-xO nanorods array were electrodeposited on ITO coated glass andGCE substrates. The XRD analysis indicated the wurtzite structure for ZnO and confirmed formationof Mn2O3 impurity phase in MnxZn1-xO samples. Optical study showed the edges of absorption spectrawere blue-shifted with increasing Mn concentrations. The photocatalytic performance of MnxZn1-xO/GCE was studied through electrochemical determination of Gallic acid and RhB degradation.Amperometric analysis exhibited that the electrocatalytic current density was increased with increasingthe dopant concentration in ZnO nanorods. The photoelectrocatalytic capability was studied in darkand under light irradiation conditions. Results showed that the stability, detection limit, sensitivity andphotocatalytic activity of MnxZn1-xO/GCE were improved remarkably by doping Mn in ZnO lattice.Furthermore, MnxZn1-xO nanorods array displayed a desirable performance on RhB photocatalyticdegradation..
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