一种简单有效的磁性γ-FeO@SiO@TiO-Ag微球的合成方法，作为可回收光催化剂：染料降解和抗菌潜力

A simple and effective synthesis of magnetic γ-FeO@SiO@TiO-Ag microspheres as a recyclable photocatalyst: dye degradation and antibacterial potential.

作者信息

Dabirvaziri Bahareh, Givianrad Mohammad Hadi, Sourinejad Iman, Moradi Ali Mashinchian, Mostafavi Pargol Ghavam

机构信息

1Department of Marine Biology, Science and Research Branch, Islamic Azad University, Tehran, Iran.

2Department of Chemistry, Science and Research Branch, Islamic Azad University, Tehran, Iran.

出版信息

J Environ Health Sci Eng. 2019 Nov 14;17(2):949-960. doi: 10.1007/s40201-019-00410-w. eCollection 2019 Dec.

DOI:10.1007/s40201-019-00410-w

PMID:32030165

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6985320/

Abstract

PURPOSE AND METHODS

In this study, an effective technique for synthesizing γ-FeO@SiO@TiO-Ag magnetically separable photocatalyst was introduced by combining co-precipitation, sol-gel, and photo-deposition methods. A series of analyses including FTIR, SEM, EDS, XRD, and VSM were applied to characterize the prepared materials and the investigations on photocatalytic activity of the prepared composites were accomplished.

RESULTS

Compared to bare γ-FeO@SiO@TiO, the Ag-doped composite was more active in terms of photocatalytic characteristics. By applying γ-FeO@SiO@TiO-Ag, the decomposition rate of the Basic blue 41 reached to about 94% after 3 h of UV irradiation; this rate was 63% for pure γ-FeO@SiO@TiO. The results indicated that the dye degradation kinetics followed first-order kinetic model. During the five cycles of separation, it was observed that the Ag-doped composite was greatly effective and stable in terms of recycling. Moreover, the results indicated that antibacterial activity of γ-FeO@SiO@TiO-Ag was remarkably stronger than that of pure FeO@SiO@TiO particles.

CONCLUSION

It was concluded that by modifying magnetic TiO by silver nanoparticles, charge separation was eased by catching photo-generated electrons, resulted in an enhanced photo- and biological activity. Graphical abstract.

摘要

目的与方法

在本研究中，通过结合共沉淀、溶胶 - 凝胶和光沉积方法，引入了一种合成γ - FeO@SiO@TiO - Ag磁性可分离光催化剂的有效技术。应用了包括傅里叶变换红外光谱（FTIR）、扫描电子显微镜（SEM）、能谱分析（EDS）、X射线衍射（XRD）和振动样品磁强计（VSM）在内的一系列分析方法来表征所制备的材料，并完成了对所制备复合材料光催化活性的研究。

结果

与裸γ - FeO@SiO@TiO相比，Ag掺杂的复合材料在光催化特性方面更具活性。通过应用γ - FeO@SiO@TiO - Ag，在紫外光照射3小时后，碱性蓝41的分解率达到约94%；对于纯γ - FeO@SiO@TiO，该分解率为63%。结果表明染料降解动力学遵循一级动力学模型。在五个循环的分离过程中，观察到Ag掺杂的复合材料在回收利用方面非常有效且稳定。此外，结果表明γ - FeO@SiO@TiO - Ag的抗菌活性明显强于纯FeO@SiO@TiO颗粒。

结论

得出的结论是，通过用银纳米颗粒修饰磁性TiO，捕获光生电子可缓解电荷分离，从而提高光活性和生物活性。图形摘要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d59/6985320/6bb53ea54741/40201_2019_410_Figa_HTML.jpg

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一种简单有效的磁性γ-FeO@SiO@TiO-Ag微球的合成方法，作为可回收光催化剂：染料降解和抗菌潜力

A simple and effective synthesis of magnetic γ-FeO@SiO@TiO-Ag microspheres as a recyclable photocatalyst: dye degradation and antibacterial potential.

作者信息

机构信息

出版信息

PURPOSE AND METHODS

RESULTS

CONCLUSION

目的与方法

结果

结论

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