Selective hydrogen-deuterium exchange in graphitic carbon nitrides: probing the active sites for photocatalytic water splitting by solid-state NMR

The relationship between the structural characteristics and photocatalytic reaction mechanisms of graphitic carbon nitride (g-C₃N₄) still remains unclarified at the molecular level, which severely hinders the further development of this field. The present study addresses this issue by employing an innovative strategy to investigate the relationship between the H-containing structures of g-C₃N₄and its water splitting properties. The exchangeable and unexchangeable protons of the H-containing groups of g-C₃N₄were differentiated by selective deuteration, providing a way to distinguish the hydrophilic and relatively non-hydrophilic H-containing groups of g-C₃N₄. A combination of advanced solid-state NMR approaches reveals that amino group defects (CN₂(NH_x)) on the C-N skeleton of the photocatalyst likely serve as hydrophilic active sites for facilitating the photocatalytic hydrogen evolution reaction.