Cyano/Hydroxyl Groups Co-Functionalized g-C3N4 for Photocatalytic NO Removal: A Synergistic Strategy towards Inhibition of Toxic Intermediate NO2

Abstract: Photocatalytic NO removal is usually accompanied by the generation of NO2, an intermediate with a higher toxicity than NO. Therefore, it is critically important to develop new photocatalysts capable of NO selective conversion. Herein, we report on the synergistic roles of cyano and hydroxyl functional groups in photocatalytic NO removal. According to the results, the NO2 production efficiencies on cyano/hydroxyl-group-modified g-C3N4 (DCN-O-R) was limited to 4.8%, which was lower than that of cyano-group-modif… Show more

“…The deep nitrogen removal is usually focused on nitrogen-composite decomposition with highly advanced oxidation such as photocatalytic technologies [4,5], and efficiency improvements with low carbon sources. In fact, it is very difficult to realize deep nitrogen removal under low carbon source conditions.…”

Effects of Carbon Source on Denitrification and Electricity Generation in Composite Packing MFC-CW for Tail Water Treatment

“…The deep nitrogen removal is usually focused on nitrogen-composite decomposition with highly advanced oxidation such as photocatalytic technologies [4,5], and efficiency improvements with low carbon sources. In fact, it is very difficult to realize deep nitrogen removal under low carbon source conditions.…”

Effects of Carbon Source on Denitrification and Electricity Generation in Composite Packing MFC-CW for Tail Water Treatment

Study of pyrene-based covalent organic frameworks for efficient photocatalytic oxidation of low-concentration NO