Tailoring the Morphology of g‐C3N4 by Self‐Assembly towards High Photocatalytic Performance

Abstract

AbstractWe report a novel method for the preparation of graphitic carbon nitride (g‐C3N4) with various morphologies through self‐assembly and calcination, which starts from the raw materials melamine, urea, and cyanuric acid. The hollow to wormlike morphologies of g‐C3N4 could be readily tailored by adjusting the molar ratio of melamine to urea; with increase in the molar ratio from 3:1 to 1:3, a morphology transformation was observed. The morphologies were tailored by self‐assembly of the aggregates by hydrogen bonding and ionic interactions. Correspondingly, an increased BET surface area from 49.6 to 97.4 m2 g−1 was observed. If used as a photocatalyst in degrading rhodamine B (RhB) under visible‐light irradiation, these g‐C3N4 samples demonstrated 7 to 13 times higher performance than conventional bulk g‐C3N4. The high performance was attributed to the unique morphology that provided not only high specific surface area but low recombination losses of photogenerated charges.