Engineering the nanoarchitecture and texture of polymeric carbon nitride semiconductor for enhanced visible light photocatalytic activity

光催化 材料科学 结晶度 热解 剥脱关节 化学工程 可见光谱 比表面积 水溶液 氮化碳 碳纤维 纳米技术 复合材料 催化作用 有机化学 光电子学 石墨烯 复合数 化学 工程类
作者
Fan Dong,Zhenyu Wang,Yanjuan Sun,Wingkei Ho,Haidong Zhang
出处
期刊:Journal of Colloid and Interface Science [Elsevier BV]
卷期号:401: 70-79 被引量:389
标识
DOI:10.1016/j.jcis.2013.03.034
摘要

In order to develop g-C3N4 for better visible light photocatalysis, g-C3N4 nanoarchitectures was synthesized by direct pyrolysis of cheap urea at 550 °C and engineered through the variation of pyrolysis time. By prolonging the pyrolysis time, the crystallinity of the resulted sample was enhanced, the thickness and size of the layers were reduced, the surface area and pore volume were significantly enlarged, and the band structure was modified. Especially for urea treated for 4 h, the obtained g-C3N4 nanosheets possessed high surface area (288 m2/g) due to the reduced layer thickness and the improved porous structure. A layer exfoliation and splitting mechanism was proposed to explain the gradual reduction of layer thickness and size of g-C3N4 nanoarchitectures with increased pyrolysis time. The as-synthesized g-C3N4 samples were applied for photocatalytic removal of gaseous NO and aqueous RhB under visible light irradiation. It was found that the activity of g-C3N4 was gradually improved as the pyrolysis time was prolonged from 0 min to 240 min. The enhanced crystallinity, reduced layer thickness, high surface area, large pore volume, enlarged band gap, and reduced number of defects were responsible for the activity enhancement of g-C3N4 sample treated for a longer time. As the precursor urea is very cheap and the synthesis method is facile template-free, the as-synthesized g-C3N4 nanoscale sheets could provide an efficient visible light driven photocatalyst for large-scale applications.
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