Photoelectrochemical pathogenic bacteria sensing platform integrated with sterilization function based on the g-C3N4 nanosheets decorated with AuNPs and Poly(3-thiophene boronic acid)

The integration of sterilization capabilities into sensing platforms is a crucial step in mitigating the significant health risks associated with the persistence of pathogenic bacteria. In this study, we developed a photo -electrochemical (PEC) pathogenic bacteria sensing platform integrated with sterilization function. The platform was based on the g-C3N4 nanosheets decorated with AuNPs and Poly(3-thiophene boronic acid) (PTBA). The incorporation of AuNPs and PTBA proved highly beneficial for enhancing the PEC and photocatalytic performance of bulk g-C3N4. Leveraging the boronic acid group of PTBA, we achieved the selective capture of pathogenic bacteria on the surface of the electrode. The platform showed a high detection sensitivity towards Escherichia coli (E. coli) with a low limit detection (30.5 cfu/mL). Furthermore, the sensing platform demonstrated an exceptional antibacterial rate (99.9 %) resulting from the photoelectrocatalytic effect of PTBA/AuNPs/ g-C3N4. This research presents a potential application of the platform as a self-cleaning biosensor for pathogenic diagnosis.

Automated summary

The integration of sterilization capabilities into sensing platforms is crucial for mitigating health risks associated with pathogenic bacteria. This study developed a photoelectrochemical bacterial sensing platform with sterilization function, improving performance through the incorporation of PTBA and AuNPs. The platform selectively captured bacteria and demonstrated high sensitivity detection and effective antibacterial properties.