Synergy of Iron Doping and Cyano Groups for Enhanced Photocatalytic Hydrogen Production over C3 N4.

Improving the insufficient carrier separation dynamics is still of significance in carbon nitride (C3 N4 ) research. Extensive research has been devoted to improving the carrier separation efficiency through a single strategy, while ignoring the synergistic enhancement effect produced by coupling two or more conventional strategies. Herein, we reported the fabrication of cyano group-containing Fe-doped C3 N4 porous materials via direct co-calcination of iron acetylacetonate and melamine for synergistically improving the photocatalytic performance. Iron acetylacetonate can promote the generation of cyano groups and form Fe-doping in C3 N4 , thereby increasing the visible-light absorption and reactive sites. Further, the internal donor-acceptor system formed by cyano groups and Fe-doped sites promoted charge carrier separation and inhibited the radiation recombination of e- -h+ pairs. The optimized photocatalytic activity of Fe-CN-2 sample was 4.5 times of bulk C3 N4 (BCN).