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Carbon quantum dot implanted graphite carbon nitride nanorod with enhanced photocatalytic activity: Mechanisms, degradation pathway and DFT calculation

MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING [2024]
Ying Zhao, Shuo Wang, Zhiqiang Sun, Qingliang Liu, Jun Ma
ABSTRACT

Graphitic carbon nitride (g-C 3 N 4 ) is recognized as a promising photocatalyst for energy and environmental remediation. However, its performance has been limited by issues such as sluggish photocarrier transfer and inadequate light absorption. To address such challenges, we fabricated an innovative photocatalyst by implanting zero-dimensional carbon quantum dots (CQDs) within one-dimensional g-C 3 N 4 nanorods . The CQD incorporation accelerated the charge separation/transfer, simultaneously, broadened the light-harvesting ability through the up-converted fluorescent properties. Density functional theory calculations were applied to gain insights into the influence of implanted CQDs on the band gap and charge behavior of CQDs/g-C 3 N 4 . Moreover, the π-π conjugation between the g-C 3 N 4 and CQD enabled the photogeneration of charge carriers. As a result, the CQDs/g-C 3 N 4 photocatalyst exhibited superb photocatalytic degradation under visible light irradiation, and the removal rates of tetracycline (TC) was 94.3%, surpassing that of pure g-C 3 N 4 by 1.2 times. Additionally, CQDs/g-C 3 N 4 processed excellent reusability and mineralization for TC degradation. The photocatalytic degradation pathway of TC was proposed using LC-MS. Mechanisms studies revealed that the photogenerated holes (h + ), hydroxyl (•OH) and superoxide radicals (•O 2 – ) were the primary reactive species responsible for driving the photodegradation process. This study provided a valuable strategy for the design of efficient and stable photocatalysts for antibiotic wastewater remediation .

MATERIALS

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