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Tunning heterostructures interface of Cu2O@HKUST-1 for enhanced photocatalytic degradation of tetracycline hydrochloride

光催化 异质结 八面体 材料科学 Crystal(编程语言) 化学工程 晶体结构 盐酸四环素 纳米技术 可见光谱 结晶学 光化学 化学 催化作用 光电子学 四环素 有机化学 工程类 生物化学 程序设计语言 抗生素 计算机科学
作者
You Wu,Yuqi Li,Huan Li,Hai Guo,Qi Yang,Xiaoming Li
出处
期刊:Separation and Purification Technology [Elsevier BV]
卷期号:303: 122106-122106 被引量:55
标识
DOI:10.1016/j.seppur.2022.122106
摘要

Cu2O is an attractive material for the architectural design of integrated nanomaterials in photocatalysis. Herein, a contrastive study was carried out to explore the influence of morphology/exposed Cu2O facets on the template growth process and the difference of fabricated composites in photocatalysis performance. A series of Cu2[email protected] with core–shell structure was developed via a self-confinement strategy, in which Cu2O nanocrystals with various shapes (cube, truncated octahedron and octahedron) act as self-confinement template to grow Cu-based metal–organic frameworks (HKUST-1) shell. It was revealed that the growth of HKUST-1 on Cu2O crystal depended on the original Cu2O crystal. The exposure of (1 1 1) facet in Cu2O was more favorable to the growth of HKUST-1 than (1 0 0) crystal plane. Optical and photoelectrochemical characterizations revealed that the cubic Cu2[email protected] exhibited the outstanding light response and most efficient interfacial charge transfer and separation among three types of composites. As a result, the degradation rates of tetracycline hydrochloride (TC-HCl) by cubic Cu2[email protected] under the visible light irradiation was 95.35% within 60 min, which was much higher than truncated octahedral Cu2[email protected] (78.81%) and octahedral Cu2[email protected] (66.58%). Mechanism explorations including radical capture experiments, electron paramagnetic resonance and band structure analysis showed that type II heterojunction was formed in cubic Cu2[email protected] and truncated octahedral Cu2[email protected], which was conducive to the separation and transfer of photo-generated carriers. However, type I heterojunction existed in octahedral Cu2[email protected] lead to the recombination of photocarriers. These findings revealed the interface-dependent photocatalytic performance in Cu2[email protected] and provided useful guidance for controllable construction of photocatalysts with heterojunction structure.
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