Minute‐Scale High‐Temperature Synthesis of Polymeric Carbon Nitride Photoanodes

Polymeric carbon nitride (CN) has emerged as a promising photoanodic material in water‐splitting photoelectrochemical cells (PEC). However, the current deposition methods of CN layers on substrates usually include a long heating process at 500−550 °C, which might cause sublimation or decomposition of the CN monomers and destruction of the substrate, leading to a nonuniform CN film. Herein, a simple, fast, and scalable energy‐economic procedure to synthesize homogenous CN films is introduced. The predesigned CN monomers film is subjected for several minutes to higher temperatures than the standard calcination procedure. The short heating process allows the formation of a uniform CN layer, with excellent contact with the substrate and good activity as a photoanode in PEC. The optimal CN photoanode reaches photocurrent densities of ≈200 μA cm−2 at 1.23 versus reversible hydrogen electrode in neutral and acidic solutions and 120 μA cm−2 in a basic solution. A short, simple, scalable, and energy‐economic synthesis of homogenous carbon nitride (CN) is introduced. The procedure comprises a fast heating process of several minutes of CN monomers at higher temperatures than the “standard” CN calcination procedure. The resulting films possess strong adhesion to the substrate, and exhibit good performance as photoanodes in photoelectrochemical cells.