Remarkably enhanced visible-light photocatalytic hydrogen evolution and antibiotic degradation over g-C_3N_4 nanosheets decorated by using nickel phosphide and gold nanoparticles as cocatalysts

He Y. Q.; Zhang Fangling; Ma Bei; Xu Na; Binnah Junior Lucas; Yao Binghua; Yang Qian; Liu Dongjie; Ma Zhanying

首页> 外文期刊>Applied Surface Science >Remarkably enhanced visible-light photocatalytic hydrogen evolution and antibiotic degradation over g-C_3N_4 nanosheets decorated by using nickel phosphide and gold nanoparticles as cocatalysts

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Remarkably enhanced visible-light photocatalytic hydrogen evolution and antibiotic degradation over g-C_3N_4 nanosheets decorated by using nickel phosphide and gold nanoparticles as cocatalysts

机译：通过使用镍和金纳米颗粒作为助催化剂，显着提高可见光光催化氢气进化和抗生素降解G-C_3N_4纳米粒子上装饰的抗生素降解

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In this study, a highly efficient ternary 6.7%Au/Ni2P/g-C3N4 nanocomposite is rationally fabricated through a two-step hydrothermal followed by green photoreduction strategy. The XPS analysis, SEM and HRTEM images reveal that Ni2P and good nanoparticles (AuNPs) are successfully loaded onto the surface of g-C3N4 and heterojunction formed among them. The optimized 6.7%Au/0.5%Ni2P/g-C3N4 demonstrates the highest photocatalytic efficiency towards decomposition of levofloxacin hydrochloride with 88.23% removal rate and hydrogen generation rate of 78.65 mu mol center dot g(-1) center dot h(-1), in comparison with the binary 0.5%Ni2P/g-C3N4 (76.86%, 47.06 mu mol center dot g(-1) center dot h(-1)) and pristine g-C3N4 (61.26%, 45.61 mu mol center dot g(-1)center dot h(-1)). Notably, this is the first time using Ni2P and AuNPs co-modified g-C3N4-based nanocomposites to evaluate the photocatalytic degradation performance of levofloxacin hydrochloride. The study of the corresponding enhanced mechanism indicates that the dramatically improved photocatalytic performance is originated from the synergistic effects: including (1) the strong optical absorption property of Ni2P and the SPR effect of AuNPs endows the remarkably improved visible-light harvesting for increasing charge carrier production; (2) the co-catalysts of Ni2P and AuNPs play key roles as interfacial electron sinkers and facilitate photogenerated electron-hole pairs separation and migration; (3) the co-integration improves the specific surface area of final product which can provide more active sites for the improvement of photocatalytic performance. Moreover, a plausible degradation pathway for levofloxacin hydrochloride is proposed based on the UPLC-MS analysis. Our work highlights a good example for designing and constructing other highly-efficient g-C3N4-based multicomponent photocatalysts for both solar energy conversion and environmental remediation.

机译：在该研究中，通过两步水热学，然后通过绿色光学光电策略合理制造高效的三元6.7％Au / Ni2P / G-C3N4纳米复合材料。 XPS分析，SEM和HRTEM图像揭示了Ni2P和良好的纳米颗粒（AUNP）成功地装载到G-C3N4的表面和在其中形成的异质结。优化的6.7％Au / 0.5％Ni2P / G-C3N4显示了肺结催化效率，达到左氧氟沙星盐酸氟氯嘧啶的分解，88.23％的去除率和氢气产生率为78.65μmmol中心点G（-1）中心点H（-1）与二元0.5％Ni2P / G-C3N4（76.86％，47.06μmmol中心点G（-1）中心点H（-1））和原始G-C3N4（61.26％，45.61μmmol中心点G （-1）中心点H（-1））。值得注意的是，这是第一次使用Ni2P和AuNP共改性的G-C3N4的纳米复合材料评估左氧氟沙星的光催化降解性能。对应增强机制的研究表明，显着改善的光催化性能源自协同效应：包括（1）Ni2P的强光学吸收性能和AUNP的SPR效应赋予了增加电荷载体的显着改进的可见光收集生产; （2）Ni2P的助催化剂和AUNPS扮演关键型角色作为界面电子沉降剂，并促进光发性的电子孔对分离和迁移; （3）共同整合改善了最终产品的比表面积，可提供更活跃的位点以改善光催化性能。此外，基于UPLC-MS分析，提出了一种基于UPLC-MS分析的左氧氟沙星的可粘性降解途径。我们的工作突出了设计和构建基于高效的G-C3N4的多组分光催化剂的一个很好的例子，用于太阳能转换和环境修复。

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来源
《Applied Surface Science》 |2020年第jul1期|146187.1-146187.13|共13页
作者
He Y. Q.; Zhang Fangling; Ma Bei; Xu Na; Binnah Junior Lucas; Yao Binghua; Yang Qian; Liu Dongjie; Ma Zhanying;
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Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China|Xian Univ Technol State Key Lab Ecohydraul Northwest Arid Reg China Xian 710048 Peoples R China;

Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China;

Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China;

Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China;

Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China;

Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China;

Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China;

Xian Univ Technol Dept Appl Chem Xian 710048 Peoples R China;

Xianyang Normal Univ Dept Chem Xianyang 712000 Peoples R China;

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正文语种 eng
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关键词
Photocatalysis; Hydrogen evolution; g-C3N4 nanosheet; Ni2P co-catalyst; Gold nanoparticles; Levofloxacin hydrochloride degradation;

机译：光催化;氢气进化;G-C3N4纳米片;Ni2P辅助催化剂;金纳米颗粒;盐酸氟氧氟沙星降解;

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2. Synthesis of rhodium phosphide cocatalyst and remarkably enhanced photocatalytic hydrogen evolution over CdS under visible light radiation [J] . Song Limin, Li Tongtong, Zhang Shujuan, Chemical engineering journal . 2017,第期

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3. The visible-light photocatalytic activity for enhancing RhB degradation and hydrogen evolution from SrTiO3 nanoparticles decorated red phosphorus nanorods as photocatalysts [J] . Wang Jing, Pi Mingyu, Zhang Dingke, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2020,第8期

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机译：改进的可见光光催化H 2在CDS Nanoshs上由NIS 2和金属炭黑装饰为双层含有双层含有的Cocatalysts

Remarkably enhanced visible-light photocatalytic hydrogen evolution and antibiotic degradation over g-C_3N_4 nanosheets decorated by using nickel phosphide and gold nanoparticles as cocatalysts

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