Modification of crystalline graphitic carbon nitride for improve efficiency in photocatalytic destruction of volatile organic compounds (VOCs) under visible light irradiation

IF 2.8 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Vitaliy Shvalagin, Aleksandr Kutsenko, Tetyana Stara, Polina Hlukhova, Mykola Skoryk, Stepan Kuchmiy
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Abstract

In this study, we show that the use of a mixture of melamine and oxalic acid during the synthesis of acid-treated crystalline graphitic carbon nitride samples significantly enhances its photocatalytic activity in VOCs destruction processes. The rate of photocatalytic ethanol destruction with the participation of modified crystalline graphitic carbon nitride obtained under optimal conditions is 67.1 μmol h−1, which is almost twice higher than sample synthesized in the absence of oxalic acid, and is two orders of magnitude higher than the activity of bulk g–C3N4. The synthesized materials were characterized using XRD, FT-IR, UV–Vis, PL, SEM, and EDXA methods. The high activity of the modified carbon nitride samples is attributed to increased light absorption in the visible region of the spectrum and better crystallinity, which can lead to more efficient separation and transport of photogenerated charges. To our knowledge, the effect of the simultaneous use of melamine and oxalic acid for obtaining acid-treated crystalline graphitic carbon nitride is, shown for the first time.

Abstract Image

改性结晶氮化石墨,提高可见光照射下光催化销毁挥发性有机化合物 (VOC) 的效率
本研究表明,在酸处理结晶氮化石墨碳样品的合成过程中使用三聚氰胺和草酸的混合物,可显著提高其在 VOCs 破坏过程中的光催化活性。在最佳条件下获得的改性结晶氮化石墨参与的光催化乙醇破坏速率为 67.1 μmol h-1,比不使用草酸合成的样品高出近一倍,比块状 g-C3N4 的活性高出两个数量级。利用 XRD、FT-IR、UV-Vis、PL、SEM 和 EDXA 方法对合成材料进行了表征。改性氮化碳样品的高活性归因于在光谱的可见光区域增加了光吸收和更好的结晶性,这可以更有效地分离和传输光生电荷。据我们所知,同时使用三聚氰胺和草酸来获得酸处理结晶石墨氮化碳的效果还是第一次显示出来。
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来源期刊
CiteScore
5.70
自引率
18.20%
发文量
229
审稿时长
2.6 months
期刊介绍: Research on Chemical Intermediates publishes current research articles and concise dynamic reviews on the properties, structures and reactivities of intermediate species in all the various domains of chemistry. The journal also contains articles in related disciplines such as spectroscopy, molecular biology and biochemistry, atmospheric and environmental sciences, catalysis, photochemistry and photophysics. In addition, special issues dedicated to specific topics in the field are regularly published.
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