化学工程2024,Vol.52Issue(4):28-34,7.DOI:10.3969/j.issn.1005-9954.2024.04.006
rGO/CdS@HAP复合微球的光催化活性增强机理
Mechanism of enhanced photocatalytic activity of rGO/CdS@HAP composite microspheres
摘要
Abstract
In order to improve the photocatalytic activity and stability of CdS-based composite materials,hydrothermal method was employed to coat rGO(reduced graphene oxide)onto the surface of CdS@HAP(hydroxyapatite)microspheres.Techniques including XRD(X-ray diffraction),SEM(scanning electron microscope)and UV-vis(UV-vis absorption spectra)were utilized to characterize the crystal structure and physical and chemical properties of as-obtained samples.And the mechanism of enhanced photocatalytic activity of rGO/CdS@HAP was explored with photocatalytic degradation experiments of MB(methylene blue).The results show that rGO/CdS@HAP presents hollow micro spherical structure with a diameter of 4-5 μm,with tulle-like rGO coated on the surface of CdS@HAP.In addition,rGO/CdS@HAP shows significant absorption capacity for visible light,and the removal efficiency of MB under visible light irradiation for 120 min reaches up to 94%.The photocatalytic cycling experiments confirm efficient photocatalytic activity and good stability of rGO/CdS@HAP microspheres.The mechanism analysis verifies that the enhanced photocatalytic activity of rGO/CdS@HAP is achieved because type I heterojunction between CdS and HAP has a narrow band gap,which is conducive to the absorption and utilization of visible light,and rGO on the surface of CdS@HAP boosts the separation of photogenerated carriers by providing a high-speed transport path for photogenerated holes and inhibits the photocorrosion phenomenon of CdS significantly.关键词
CdS/HAP/rGO/复合微球/光腐蚀/光催化/稳定性Key words
CdS/HAP/rGO/composite microsphere/photocorrosion/photocatalysis/stability分类
通用工业技术引用本文复制引用
杨莉,姜晓雪,靳晓曼,王柯,宋树浩..rGO/CdS@HAP复合微球的光催化活性增强机理[J].化学工程,2024,52(4):28-34,7.基金项目
陕西省科技计划项目创新能力支撑计划(2022TD-04) (2022TD-04)
长安大学2023年大学生创新训练项目(S202310710063) (S202310710063)
