Synthesis of g-C3N4/biochar materials for photocatalytic degradation of doxycycline in aqueous solution under visible light irradiation

Vietnam Journal of Catalysis and Adsorption Pub Date : 2024-03-09 DOI:10.62239/jca.2023.075

Bui Thi Minh Nguyet, Nguyen Thanh Tuoi, Nguyen Van Hung

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Abstract

This study used reed biomass and urea as raw materials to produce biochar and g-C3N4 by pyrolysis under N2 atmospheric conditions at 400oC and 520oC, respectively. The g-C3N4/biochar materials were prepared by dispersing different masses of g-C3N4 onto the biochar surface and characterized by XRD, SEM, BET, FT-IR and UV-Vis-DRS methods. The photocatalytic degradation on doxycycline (DC) was investigated from the factors of pH and concentration. The characterization showed that g-C3N4 was well incorporated on the surface of biochar and increased the specific surface area of the material. The presence of biochar narrowed the band gap and increased light absorption at a wider wavelength range of g-C3N4. The composite of g-C3N4/biochar ratio of 2/1 presented the best performance, which is 2.38 times faster than g-C3N4 degrading DC. Kinetic studies showed that DC degradation followed pseudo-first-order kinetics with a determined rate constant kapp = 4,82×10-2 min−1 at a concentration of 5.0 mg/L DC. The study shows that the g-C3N4/biochar material has great potential in the treatment of antibiotic contaminated wastewater.

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在可见光照射下合成用于光催化降解水溶液中强力霉素的 g-C3N4/ 生物炭材料

本研究以芦苇生物质和尿素为原料，分别在 400 摄氏度和 520 摄氏度的 N2 大气条件下热解制备生物炭和 g-CN4。将不同质量的 g-C3N4 分散到生物炭表面，制备出 g-C3N4/ 生物炭材料，并通过 XRD、SEM、BET、傅立叶变换红外光谱和紫外-可见-荧光光谱法对其进行表征。从 pH 值和浓度两个因素考察了光催化降解多西环素（DC）的情况。表征结果表明，g-C3N4 与生物炭表面结合良好，增加了材料的比表面积。生物炭的存在缩小了 g-C3N4 的带隙，增加了其在更宽波长范围内的光吸收。g-C3N4/ 生物炭比例为 2/1 的复合材料性能最佳，降解直流电的速度是 g-C3N4 的 2.38 倍。动力学研究表明，当 DC 浓度为 5.0 mg/L 时，DC 降解遵循伪一阶动力学，确定的速率常数 kapp = 4,82×10-2 min-1。该研究表明，g-C3N4/生物炭材料在处理抗生素污染废水方面具有巨大潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Vietnam Journal of Catalysis and Adsorption

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