Photophysics and Photocatalysis of Melem: A Spectroscopic Reinvestigation

Graphitic carbon nitride (g‐CN) is one potential metal‐free photocatalyst. The photocatalytic mechanism of g‐CN is related to the heptazine ring building unit. Melem is the simplest heptazine‐based compound and g‐CN is its polymeric product. Thus, studies on the photophysical properties of melem will help to understand the photocatalytic mechanism of heptazine‐based materials. Herein, the spectroscopic features of melem were systematically explored through measuring its absorption spectrum, fluorescence spectrum, and fluorescence decay. Both fluorescence spectroscopy and fluorescence decay measurements show that the condensation of melamine to melem causes stronger photoluminescence, whereas the condensation of melem to g‐CN causes weaker photoluminescence. In addition, all observations reveal that a mixture of monomer melem and its higher condensates is more easily obtained during the preparation of melem, and that the higher condensates of melem affect the photophysical properties of melem dominantly. The photocatalytic hydrogen evolution of melem has also been measured and the monomer melem has negligible photoinduced water‐splitting activity. Rings for splitting: The photophysical properties of monomer melem have been reinvestigated. The photocatalytic hydrogen evolution of melem data indicates that monomer melem has negligible photoinduced water‐splitting activity (see figure). The current studies will help to understand the photocatalytic mechanism of heptazine‐based materials.