利用石墨相氮化碳对钼酸铋进行修饰,从而大幅度的提高光催化效率。采用X射线衍射分析、扫描电子显微镜和紫外可见分光光度计等分析方法,系统了解石墨相氮化碳修饰后钼酸铋催化材料的结构对其可见光催化性能的影响规律。分析石墨相氮化碳表面修饰材料与钼酸铋光催化材料之间的电子相互作用的本质以及对光生电荷传输的影响规律,通过具有共轭大π键体系的石墨相氮化碳杂化可以在钼酸铋界面上形成电子相互作用,促进光生载流子的传输及分离,揭示石墨相氮化碳与钼酸铋纳米片材料表面的表面状态及作用机理。 The use of graphite carbon nitride carbon bismuth molybdate modified, thereby significantly improving the photocatalytic efficiency. X-ray diffraction analysis, scanning electron microscopy and UV-Vis spectrophotometer were used to systematically understand the influence of the structure of bismuth molybdate catalyzed by graphitic carbonitride on its visible light catalytic properties. By analyzing the nature of the electronic interaction between the graphite carbonitride carbon surface modification material and the bismuth molybdate photocatalytic material and the influence on the photogenerated charge transfer, the graphite phase nitrided carbon hybrid with the conjugated π bond system can At the interface of bismuth molybdate, an electron interaction is formed to promote the transport and separation of photogenerated carriers, and the surface state and mechanism of carbon nitride and bismuth molybdate nanosheet surface are revealed.