A Direct Z-Scheme AgBr/CuBi2O4 Photocathode for Ultrasensitive Detection of Ciprofloxacin and Ofloxacin by Controlling the Release of Luminol in Self-Powered Microfluidic Photoelectrochemical Aptasensors

An innovative self-powered microfluidic photoelectrochemical (PEC) aptasensor was developed that uses photoactive AgBr/CuBi2O4 (ACO) composites as the photocathode matrix for ultrasensitive detection of ciprofloxacin (CIP) and ofloxacin (OFL). The formation of direct Z-scheme heterojunctions in ACO composites greatly aided electron/hole pair separation. Meanwhile, ZnIn2S4-decorated CdS nanorod arrays (CZIS) as the photoanode were used instead of a platinum counter electrode to provide electrons. The signal-off CIP detection was accomplished through the steric hindrance effect in the photoanode due to the combination of aptamer((CIP))and CIP. To increase the cathodic photocurrent intensity for OFL determination, controlled release of luminol was first used. Luminol molecules were successfully embedded in the porous structure of silicon dioxide nanospheres (PSiO2) by the electrostatic adsorption between PSiO2 and aptamer((OFL)). The luminol released by specific recognition between OFL and aptamer((OFL)) could not only react with center dot O-2(-) but also produce chemiluminescence emission, resulting in the signal-on state. Because of the signal on-off-on, the proposed aptasensor exhibited wide linear ranges for CIP (0.001-100 ng/mL) and OFL (0.0005-100 ng/mL) detection. Furthermore, the low detection limits of CIP (0.06 pg/mL) and OFL (0.022 pg/mL) could achieve the ultrasensitive analysis.

Automated summary

An innovative self-powered microfluidic photoelectrochemical aptasensor was developed for ultrasensitive detection of CIP and OFL. The aptasensor utilized ACO composites as the photocathode matrix and CZIS as the photoanode, resulting in wide linear ranges and low detection limits.