Efficient degradation of Rhodamine B by coupling of Lys-CoFe-layered double hydroxide@graphitic-C3N4 nanohybrids via photocatalysis under visible light

“…This observation underscores the significant involvement of OH • radicals as the most active species in the photocatalytic process. Similarly, in another report, 72 the degradation rate of RhB witnessed a substantial reduction from 99.8% to 41.5% and 43.8% upon the addition of BQ. This suggests that O 2 ˙ radicals played crucial and noteworthy roles in the photodegradation process of rhodamine.…”

Modulating chelation with pH sensitivity for controlled structural defects and enhanced electrochemical and photocatalytic activities of LDH films

“…This observation underscores the significant involvement of OH • radicals as the most active species in the photocatalytic process. Similarly, in another report, 72 the degradation rate of RhB witnessed a substantial reduction from 99.8% to 41.5% and 43.8% upon the addition of BQ. This suggests that O 2 ˙ radicals played crucial and noteworthy roles in the photodegradation process of rhodamine.…”

Modulating chelation with pH sensitivity for controlled structural defects and enhanced electrochemical and photocatalytic activities of LDH films

“…It can convert sunlight into chemical energy and initiate or accelerate specific redox reactions, effectively decomposing car exhausts and purifying air and water through the excitation of light. At present, nano-TiO 2 particles and g-C 3 N 4 are primarily used as photocatalytic materials in air purification and sewage treatment due to their strong photocatalytic degradation, non-toxicity, and chemical and thermal stability [15][16][17]. Nano-TiO 2 and g-C 3 N 4 are semiconductor materials with a discontinuous energy band structure, where the valence band is filled with electrons and the conduction band is empty [18,19].…”

Effect of Photocatalyst on Rheological Behavior and NO Degradation Capacity of Asphalt Binder

Floating La modified g-C3N4 photocatalytic sponge mesh for sustainable dye degradation under sunlight irradiation