Highly Sensitive As3+Detection Using Electrodeposited Nanostructured MnOxand Phase Evolution of the Active Material during Sensing

A simple, one-step electrodeposition approach has been used to fabricate MnOxon an indium-doped tin oxide substrate for highly sensitive As3+detection. We report an experimental limit of detection of 1 ppb through anodic stripping voltammetry with selectivity to As3+in the presence of 10 times higher concentrations of several metal ions. Additionally, we report the simultaneous phase evolution of active material occurring through multiple stripping cycles, wherein MnO/Mn2O3eventually converts to Mn3O4as a result of change in the oxidation states of manganese. This occurs with concomitant changes in morphology. Change in the electronic property (increased charge transfer resistance) of the material due to sensing results in an eventual decrease in sensitivity after multiple stripping cycles. In a nutshell, this paper reports stripping-voltammetry-induced change in morphology and phase of as-prepared Mn-based electrodes during As sensing.