Abstract

Photocatalytic pollutant removal provides a competitive manner for wastewater purification . The exploration of efficient and durable photocatalysts is significant for this technique. Integrating carbon quantum dots and S-scheme junction into one system represents an effective strategy for achieving the outstanding photocatalytic efficacy. In comparison to S-scheme junction, photocatalysts combining carbon quantum dots and S-scheme junction harness the merits of both, thus holding greater potential. Herein, a multicomponent fibrous photocatalyst of carbon quantum dots/CdS/Ta 3 N 5 that incorporates S-scheme heterojunction and carbon quantum dots is developed for high-efficient destruction of levofloxacin antibiotic . The as-prepared carbon quantum dots/CdS/Ta 3 N 5 heterojunction nanofibers manifest a significantly strengthened photocatalytic levofloxacin degradation activity, with the rate constant (0.0404 min −1 ) exceeding Ta 3 N 5 , CdS/Ta 3 N 5 , and CdS by 39.4, 2.1, and 7.2 folds. Such remarkable photocatalytic performance is credited to the unique 1D/0D/0D core-shell heterostructure with compact-bound hetero-interface, which favors the synergistic effect between carbon quantum dots modification and S-scheme junction. This work offers a new way for developing new Ta 3 N 5 -based heterojunctions for environmental remediation. A multicomponent fibrous photocatalyst of carbon quantum dots/CdS/Ta 3 N 5 that incorporates S-scheme heterojunction and carbon quantum dots is developed for high-efficient destruction of levofloxacin antibiotic.