Journal
CHEMOSPHERE
Volume 307, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2022.135718
Keywords
G-C3N4; Photocatalytic degradation; Mineral processing wastewater; Dye wastewater
Categories
Funding
- Open Foundation of State Key Laboratory of Mineral Processing [BGRIMM-KJSKL-2021-12]
- National Natural Science Foundation of China [51804188]
- Natural Science Foundation of Shandong Province [ZR2018BEE015]
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In this study, graphite-phase carbon nitride photocatalytic materials with excellent optical properties and strong visible light absorption were successfully prepared by one-step calcination method. The photocatalytic degradation of methylene blue and potassium butyl xanthate was achieved with high efficiency. The initial pollutant concentration, catalyst dosage, and pH value were found to have significant effects on the photocatalytic activity.
The graphite-phase carbon nitride (g-C3N4) photocatalytic materials were prepared by one-step calcination method to degrade methylene blue (MB) and potassium butyl xanthate (PBX) under visible light irradiation. The prepared g-C3N4 photocatalytic materials were investigated in detail by various characterizations, and the experiments showed that the graphitic phase carbon nitride photocatalytic materials were successfully prepared by the one-step calcination method. The material possesses excellent optical properties and strong visible light absorption, thus achieving photocatalytic degradation of MB and PBX. The catalyst dosage, pH, the initial concentration of pollutants have important effects on photocatalytic activity of MB and PBX. The photocatalytic degradation efficiency was 98.99% for MB and 96.83% for PBX under the optimal conditions (catalyst dosage, initial pollutant concentration and pH value were 500 mg L-1, 20 mg L-1 and 7, respevtively). The photocatalytic mechanisms on MB and PBX were elucidated. center dot OH was the key specie for MB, while center dot O-2(-) was the key specie for PBX. This study advances the development of photocatalytic technology for mineral wastewater.
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