Download This PaperThe Built-In Electric Field In Fragmented G-C3n4@Znin2s4 Composite Boosts the Generation of Superoxide Radicals for Highly Selective Photocatalytic Toluene Oxidation
21 Pages Posted: 8 Apr 2025
Abstract
The sp3 C-H bond in hydrocarbons is a ubiquitous chemical bond found in organic compounds. Due to its inherent inertness, direct chemical conversion under mild conditions is significantly restricted. In this study, we have designed and synthesized a Z-type fragmented g-C3N4@ZnIn2S4 heterojunction photocatalyst with enhanced visible light response, achieving the oxidation of inert sp3 C-H bonds under mild conditions. During the photocatalytic selective oxidation of toluene, the synthesized catalyst demonstrated a 10.2 mmol g-1 h-1 conversion rate of toluene, with a selectivity for benzaldehyde products reaching up to 80%. Control experiments and characterization analyses revealed that the formation of the Z-type heterojunction facilitated the establishment of an internal electric field, thereby enhancing charge separation and migration efficiency. This promoted the generation of superoxide radicals (·O2-), enabling efficient transformation of toluene. This research offers new insights into the application of Z-type heterojunctions and the activation of C-H bonds.
Keywords: Photocatalytic, C-H bond oxidation, g-C3N4, ZnIn2S4, Z-type heterojunction
Suggested Citation: Suggested Citation