具有增强染料光降解性能的直接 Z 型 CaTiO@BiOBr 复合光催化剂。

Direct Z-scheme CaTiO@BiOBr composite photocatalysts with enhanced photodegradation of dyes.

机构信息

State Key Laboratory of Advanced Processing and Recycling of Non-ferrous Metals, Lanzhou University of Technology, Lanzhou, 730050, China.

Joint Laboratory for Extreme Conditions Matter Properties, Southwest University of Science and Technology, Mianyang, 621010, China.

出版信息

Environ Sci Pollut Res Int. 2019 Oct;26(28):29020-29031. doi: 10.1007/s11356-019-06085-y. Epub 2019 Aug 6.

DOI:10.1007/s11356-019-06085-y

PMID:31388948

Abstract

To efficiently separate photoexcited electron/hole pairs is one of the key points for achieving excellent photocatalysts with high photocatalytic performances. To achieve this aim, here we have assembled CaTiO (CTO) nanoparticles onto BiOBr microplates, thus constructing novel Z-scheme CTO@BiOBr heterojunction composite photocatalysts. Observation by scanning/transmission electron microscopy confirms the good decoration of CTO nanoparticles (15-50 nm) on the surface of BiOBr microplates (diameter 0.7-2.2 μm, thickness 70-110 nm). Simulated sunlight was used as the light source, and rhodamine B (RhB) in aqueous solution was used as the model pollutant to assess the photodegradation activity of the samples. It is demonstrated that the CTO@BiOBr composites with an appropriate CTO content exhibit much enhanced photodegradation performances. In particular, the 10%CTO@BiOBr composite with a CTO mass fraction of 10%, which photocatalyzes 99.9% degradation of RhB at 30 min of photocatalysis, has a photocatalytic activity which is about 1.8 and 23.6 times larger than that of bare BiOBr microplates and CTO nanoparticles, respectively. This can be explained as the result of the Z-scheme electron transfer and efficient separation of photoexcited electron/hole pairs, as evidenced by photoluminescence, photocurrent response, and electrochemical impedance spectroscopy investigations.

摘要

有效地分离光激发的电子/空穴对是实现具有高光催化性能的优异光催化剂的关键之一。为了达到这个目的，我们将 CaTiO（CTO）纳米粒子组装到 BiOBr 微板上，从而构建了新型的 Z 型 CTO@BiOBr 异质结复合光催化剂。扫描/透射电子显微镜的观察证实了 CTO 纳米粒子（15-50nm）很好地修饰在 BiOBr 微板的表面（直径 0.7-2.2μm，厚度 70-110nm）。模拟太阳光被用作光源，水溶液中的罗丹明 B（RhB）被用作模型污染物来评估样品的光降解活性。结果表明，具有适当 CTO 含量的 CTO@BiOBr 复合材料表现出增强的光降解性能。特别是，在光催化 30 分钟时，CTO 质量分数为 10%的 10%CTO@BiOBr 复合材料对 RhB 的降解率达到 99.9%，其光催化活性分别是纯 BiOBr 微板和 CTO 纳米粒子的 1.8 倍和 23.6 倍。这可以解释为 Z 型电子转移和光激发电子/空穴对的有效分离的结果，这可以通过光致发光、光电流响应和电化学阻抗谱研究得到证明。

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具有增强染料光降解性能的直接 Z 型 CaTiO@BiOBr 复合光催化剂。

Direct Z-scheme CaTiO@BiOBr composite photocatalysts with enhanced photodegradation of dyes.

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