Improved photocatalytic performance of acetaldehyde degradation via crystal plane regulation on truncated octahedral CeO 2

材料科学 八面体 高分辨率透射电子显微镜 光催化 乙醛 电子顺磁共振 吸附 密度泛函理论 化学工程 光化学 晶体结构 纳米技术 透射电子显微镜 结晶学 无机化学 物理化学 计算化学 催化作用 有机化学 核磁共振 化学 乙醇 工程类 物理
作者
Bin Xu,Lu Jia,Hui Yang,Yue Wang,Siyu Fan,Sàisài Yuán,Qitao Zhang,Ming Zhang,Teruhisa Ohno
出处
期刊:Rare Metals [Springer Science+Business Media]
卷期号:43 (5): 2026-2038 被引量:29
标识
DOI:10.1007/s12598-023-02566-9
摘要

Abstract In this study, the truncated octahedral CeO 2 (CeO 2 ‐to) with special morphology was prepared by the solvothermal method with oleic acid (OA) and oleamine (OM) as the morphology‐directing agents. High‐resolution transmission electron microscopy (HRTEM) results show that CeO 2 ‐to exposes composite {100} and {111} facets, while CeO 2 cubic (CeO 2 ‐c) and CeO 2 octahedral (CeO 2 ‐o) only expose single crystal facets of {100} plane and {111} plane, respectively. Interestingly, this CeO 2 ‐to photocatalyst exhibits remarkable photooxidation performance of gaseous acetaldehyde (CH 3 CHO) degradation, in which CO 2 generation value reaches 1.78 and 7.97‐times greater than that of CeO 2 ‐c and CeO 2 ‐o, respectively. In addition, the active species trapping experiment signifies that superoxide (·O 2 − ) and holes (h + ) are the main reactive substances during the CH 3 CHO degradation process, and the electron paramagnetic resonance (EPR) spectra indicates that the former is the major contributor. Notably, the electron transfer mechanism between CeO 2 ‐to {100} and {111} facets and the surface oxygen adsorption ability are revealed via density functional theory (DFT) calculations. It is also confirmed that {100} facets are more conducive to the absorption of acetaldehyde than {111} facets. Finally, a reasonable mechanism for improved photocatalytic CH 3 CHO degradation on CeO 2 ‐to is proposed based on relevant experiments and DFT calculations. This study demonstrates that the systematic development of surface homojunction structured photocatalysts can efficiently increase the degradation activity for volatile organic compounds (VOCs). It also offers additional direction for optimizing the photocatalytic activity of other cerium‐based photocatalysts.
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