Effect of precursors on the structure and photocatalytic performance of g-C3N4 for NO oxidation and CO2 reduction

IF 5.9 4区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR 结构化学 Pub Date : 2024-08-14 DOI:10.1016/j.cjsc.2024.100416
Liang Ma , Zhou Li , Zhiqiang Jiang , Xiaofeng Wu , Shixin Chang , Sónia A.C. Carabineiro , Kangle Lv
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Abstract

Graphitic carbon nitride (g-C3N4, CN) is recognized as the most extensively studied organic polymeric photocatalyst for pollution control and energy conversion due to its facile synthesis and suitable electronic band structure. The aim of the present work is to explore the effect of precursors, such as urea (U, (NH2)2CO), dicyandiamide (D, C2H4N4) and melamine (M, C3H6N6), on the structure and photocatalytic activity of the obtained CN samples, denoted as UCN, DCN and MCN, respectively. The sheet-like UCN sample shows significantly enhanced photoreactivity in both NO oxidation and CO2 reduction compared to the bulk DCN and MCN materials. In addition, UCN demonstrates the ability to suppress the formation of toxic NO2 intermediate during the photocatalytic oxidation of NO. The improved photocatalytic activity of UCN can be attributed to a dual effect: first, its increased specific surface area provides more active sites for the photocatalytic reaction; second, it exhibits a stronger affinity for substrates like NO and CO2, which facilitates charge migration at the interface.

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前驱体对 g-C3N4 氧化 NO 和还原 CO2 的结构和光催化性能的影响
氮化石墨碳(g-CN,CN)因其易于合成和合适的电子能带结构,被认为是研究最为广泛的有机聚合物光催化剂,可用于污染控制和能量转换。本研究旨在探讨尿素(U,(NH)CO)、双氰胺(D,CHN)和三聚氰胺(M,C₃H₆N₆)等前驱体对所获得的 CN 样品(分别称为 UCN、DCN 和 MCN)的结构和光催化活性的影响。与块状的 DCN 和 MCN 材料相比,片状的 UCN 样品在氧化 NO 和还原 CO 方面的光活性都明显增强。此外,UCN 还能抑制 NO 光催化氧化过程中有毒 NO 中间产物的形成。UCN 光催化活性的提高可归因于双重效应:首先,UCN 比表面积的增加为光催化反应提供了更多的活性位点;其次,UCN 对 NO 和 CO 等底物表现出更强的亲和力,从而促进了界面上的电荷迁移。
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来源期刊
结构化学
结构化学 化学-晶体学
CiteScore
4.70
自引率
22.70%
发文量
5334
审稿时长
13 days
期刊介绍: Chinese Journal of Structural Chemistry “JIEGOU HUAXUE ”, an academic journal consisting of reviews, articles, communications and notes, provides a forum for the reporting and discussion of current novel research achievements in the fields of structural chemistry, crystallography, spectroscopy, quantum chemistry, pharmaceutical chemistry, biochemistry, material science, etc. Structural Chemistry has been indexed by SCI, CA, and some other prestigious publications.
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