Cobalt-doped graphitic carbon nitride with enhanced peroxidase-like activity for wastewater treatment

摘要

Cobalt-doped graphitic carbon nitride (Co-g-C _(3) N _(4) ) materials with different cobalt contents were prepared by a facile one-pot thermal condensation method with urea and cobalt chloride. The morphology and composition of the synthesized products were characterized by different techniques. X-ray photoelectron spectroscopy and elemental mappings revealed that cobalt element is highly dispersed in the framework of g-C _(3) N _(4) . For the first time, Co-g-C _(3) N _(4) was demonstrated to own dramatically enhanced peroxidase-like activity, compared with pure g-C _(3) N _(4) . Its activity is dependent on the content of cobalt doping, and the optimal content is 2.5% (Co-g-C _(3) N _(4) -2) based on the result of inductively coupled plasma atomic emission spectroscopy. The catalytic kinetics reveals that Co-g-C _(3) N _(4) -2 has a higher affinity for the substrate 3,3′,5,5′-tetramethylbenzidine (TMB) and similarly efficient performance in comparison to that of natural peroxidase. The proposed mechanism demonstrates that cobalt dopant facilitates the electron transfer of Co-g-C _(3) N _(4) from TMB to H _(2) O _(2) , thus enhances its peroxidase-like activity. Based on the greatly enhanced peroxidase-like activity, Co-g-C _(3) N _(4) -2 is firstly used for wastewater treatment. With rhodamine B as a model, Co-g-C _(3) N _(4) -2 exhibits 11 times higher degradation rate than that of pure g-C _(3) N _(4) . This research will be helpful to improve the development of efficient artificial peroxidase mimic for removing contaminants from wastewater.