Insight into the role of Fe in the synergetic effect of persulfate/sulfite and Fe2O3@g-C3N4 for carbamazepine degradation

In this work, the role of Fe in the synergetic effect of persulfate/sulfite and Fe2O3@g-C3N4 (FCN) for carbamazepine (CBZ) degradation was studied. Unexpectedly, Fe2O3 in FCN plays very different roles for sulfite [S(IV)] and persulfate (PS) activation. Specifically, since photo-generated holes (h(+)) can transform S(IV) into SO4 center dot-, and photo-generated electrons (e(-)) can accelerate Fe(III) reduction which promotes transition metal based S(IV) activation, a synergetic effect of photocatalysis and Fe is observed in FCN/S(IV)/vis system. In contrast, in FCN/PS/vis system, both Fe(III)/Fe (II) cycle and PS activation compete for e(-). Since PS is a stronger electron acceptor, Fe(III) reduction by e-is limited. Therefore, the contribution of Fe2O3 in FCN/S(IV)/vis system is 3 times higher than that in FCN/PS/vis system. Initial pH affects CBZ removal by changing surface charge of catalysts and oxidants species, while the effect varies for different catalysts and oxidants. This study provides new insight into the synergetic effect of photocatalysis and transition metal for SO4 center dot- generation, which contributes to catalyst design for environmental application.

Automated summary

This work investigated the role of Fe in the synergetic effect of persulfate/sulfite and Fe2O3@g-C3N4 for the degradation of carbamazepine. The study found that Fe2O3 in FCN plays different roles for sulfite and persulfate activation. The initial pH was also found to affect CBZ removal.