Excitonic effects on photophysical processes of polymeric carbon nitride

摘要

Recently, polymeric carbon nitride (nominally, g-C_3N_4) has attracted extensive attention due to its photoresponsive applications such as photocatalysis, photoluminescence, and photoelectrochemistry. Due to unique compositions and structures, strong excitonic effects of g-C_3N_4 network derived from low dielectric property have led to complicated photophysical processes. Studying exciton-related photophysical processes in g-C_3N_4 is of great significance for gaining in-depth understandings of the relationship between excitonic effects and photoresponsive behaviors. In this Perspective, we highlight the impacts of excitonic effects on photophysical processes of g-C_3N_4, in which excitonic behaviors like excitation, recombination, nonradiative relaxation, and annihilation are summed up. In addition, the key role of excitonic regulation in optimizing photoresponsive properties of g-C_3N_4 is also summarized, where the relevance between different photoin-duced species and structural factors is emphasized. This Perspective will present a comprehensive understanding of excitonic effects-dominated photophysical processes of g-C_3N_4 and pave a new way for the design of novel photoresponsive polymeric semiconductors with strong excitonic effects.