Fabrication of CuS/BiVO4 (040) binary heterojunction photocatalysts with enhanced photocatalytic activity for Ciprofloxacin degradation and mechanism insight

Lai Cui; Zhang Mingming; Li Bisheng; Huang Danlian; Zeng Guangming; Qin Lei; Liu Xigui; Yi Huan; Cheng Min; Li Ling; Chen Zhang; Chen Liang

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Fabrication of CuS/BiVO4 (040) binary heterojunction photocatalysts with enhanced photocatalytic activity for Ciprofloxacin degradation and mechanism insight

机译：CUS / BIVO4（040）二元杂交光催化剂的制备，具有增强的光催化活性，用于环丙沙星降解和机制洞察力

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The photocatalytic performance of BiVO4 is restricted via the fast recombination of photogenerated carriers and low visible light absorption. Fabricating of CuS/BiVO4 (0 4 0) binary heterogeneous photocatalysts by in suit growing of CuS on the surface of BiVO4 can enhance the absorption range of visible light and the separation of photogenerated carriers. Simultaneously, CuS/BiVO4 heterogeneous can provide large surface area and more active sites. The photocatalytic activity of CuS/BiVO4 composites for Ciprofloxacin (CIP) removal was examined under visible light irradiation. The optimal mass ratio of CuS to BiVO4 was determined to be 7%, and the first-order kinetic constant of CIP degradation over 7% CuS/BiVO4 (0.02151 min(-1)) was 2.59 and 16.54 times of pristine BiVO4 and CuS, respectively. The improved photodegradation efficiency is attributed to the effective separation of photogenerated carriers via formation of p-n heterojunction. The high photostability of as-prepared CuS/BiVO4 heterojunction photocatalysts was explored by four successive cycling experiments. The detailed mechanism for improved photocatalytic performance was discussed and the possible degradation pathway of CIP was measured by Liquid Chromatography-Mass/Mass Spectrometry. The trapping experiments and electron spin resonance (ESR) spin-trapping tests confirm that holes are main active species in photocatalytic degradation of CIP.

机译：Bivo4的光催化性能通过光生载体的快速重组而受到限制和低可见光吸收。通过在BIVO4表面上的CUS造成CUS / BIVO4（0 4 0）二元异质光催化剂的制造可以增强可见光的吸收范围和光生载体的分离。同时，CUS / BIVO4异质性可以提供大的表面积和更活跃的位点。在可见光照射下检查CUS / BIVO4复合材料的光催化活性（CIP）去除。将CU至Bivo4的最佳质量比确定为7％，并且CIP降解超过7％CUS / BIVO4（0.02151 min（-1））的一阶动力学常数为初步Bivo4和CU的2.59和16.54倍，分别。改善的光降解效率归因于通过形成P-N异质结的有效分离光生载体。通过四个连续的循环实验探索了由制备的CUS / BIVO4异质结光催化剂的高光稳定性。讨论了改善光催化性能的详细机制，通过液相色谱 - 质量/质谱法测量CIP可能的降解途径。诱捕实验和电子自旋共振（ESR）旋转捕获试验确认孔是CIP光催化降解中的主要活性物质。

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来源
《Chemical engineering journal》 |2019年第2019期|共12页
作者
Lai Cui; Zhang Mingming; Li Bisheng; Huang Danlian; Zeng Guangming; Qin Lei; Liu Xigui; Yi Huan; Cheng Min; Li Ling; Chen Zhang; Chen Liang;
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作者单位

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Univ Coll Environm Sci &

Engn Changsha 410082 Hunan Peoples R China;

Hunan Prov Key Lab Coal Resources Clean Utilizat Changsha Hunan Peoples R China;

Cent South Univ Forestry &

Technol Fac Life Sci &

Technol Changsha 410004 Hunan Peoples R China;

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正文语种 eng
中图分类化学工业;
关键词
Photocatalysis; Heterojunction; CuS/BiVO4; Photocatalytic activity; Photocatalytic mechanism;

机译：光催化;异质结;CUS / BIVO4;光催化活性;光催化机制;

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专利

1. Fabrication of CuS/BiVO4 (040) binary heterojunction photocatalysts with enhanced photocatalytic activity for Ciprofloxacin degradation and mechanism insight [J] . Lai Cui, Zhang Mingming, Li Bisheng, Chemical engineering journal . 2019,第期

机译：CUS / BIVO4（040）二元杂交光催化剂的制备，具有增强的光催化活性，用于环丙沙星降解和机制洞察力
2. Enhanced photocatalytic activity over flower-like sphere Ag/Ag2CO3/BiVO4 plasmonic heterojunction photocatalyst for tetracycline degradation [J] . Liu Ying, Kong Jijie, Yuan Julong, Chemical engineering journal . 2018,第期

机译：用于花样的光催化活性，用于花朵状球体AG / AG2CO3 / BIVO4等离子体异质结光催化剂进行四环素降解
3. Facile fabrication of novel BiVO4/Bi2S3/MoS2 n-p heterojunction with enhanced photocatalytic activities towards pollutant degradation under natural sunlight [J] . Wang Jingzhen, Jin Jia, Wang Xiangguo, Journal of Colloid and Interface Science . 2017,第期

机译：小型Bivo4 / Bi2S3 / MOS2 N-P异质结合的舒适性，具有增强的光催化活动，在自然阳光下污染物降解
4. Synthesis of NiO/BiVO4/ZnFe2O4 heterojunction and its photocatalytic activity [C] . Zhang Jin-Zhi, Tie Xiao-Yun, Mi Yi-Lin, 6th international conference on environmental catalysis : Abstract book . 2010

机译：NiO / BiVO4 / ZnFe2O4异质结的合成及其光催化活性
5. Visible-Light-Active Semiconductor Heterojunctions for Enhanced Photocatalytic Activity [D] . Adhikari, Shiba P. 2017

机译：可见光活性半导体异质结增强了光催化活性
6. Fabrication of the heterojunction catalyst BiVO4/P25 and its visible-light photocatalytic activities [O] . Heshan Cai, Linmei Cheng, Feng Xu, 2018

机译：异质结催化剂BiVO4 / P25的制备及其可见光催化活性
7. A novel step-scheme BiVO4/Ag3VO4 photocatalyst for enhanced photocatalytic degradation activity under visible light irradiation [O] . Lizhong Liu, Taiping Hu, Kai Dai, 2021

机译：一种新的步骤方案Bivo4 / Ag3VO4光催化剂，用于增强可见光照射下的光催化降解活性

Fabrication of CuS/BiVO4 (040) binary heterojunction photocatalysts with enhanced photocatalytic activity for Ciprofloxacin degradation and mechanism insight

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