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CdS 纳米线的制备及在烟草花叶病毒模板中的表征及其光催化性能的改善。

Fabrication and characterization of CdS nanowires templated in tobacco mosaic virus with improved photocatalytic ability.

机构信息

College of Life Science, Northeast Forestry University, Harbin, 150040, China.

出版信息

Appl Microbiol Biotechnol. 2021 Nov;105(21-22):8255-8264. doi: 10.1007/s00253-021-11596-1. Epub 2021 Oct 2.

DOI:10.1007/s00253-021-11596-1
PMID:34599676
Abstract

Using a virus as a template to synthesize nanomaterial is a simple, green, and controllable method to acquire unique structure nanoparticles. In this study, CdS nanowires were synthesized using the tobacco mosaic virus (TMV) as a template and for deposition in the inner center channel of TMV. TMV/CdS was successfully characterized, with the results showing a diameter of 4.0 nm, a cubic-phase composition, and strong fluorescence emission peaks, with an absorption edge of 566 nm and bandgap energy of 2.28 eV. The bandgap energy is narrower than that of template-free CdS. Furthermore, TMV/CdS exhibited an increased transient photocurrent, which was attributed to the effective separation of electron-hole pairs. The photoactivities of TMV/CdS and template-free CdS were tested; the results showed that the TMV/CdS had a better performance in methylene blue (MB) photodegradation, indicating that the photoactivity of TMV/CdS was higher than that of the template-free CdS. Further research on TMV/CdS regarding the photocatalytic mechanism showed that O and OH were the major species involved in photocatalysis, rather than holes (h). Therefore, TMV/CdS might have applications as a novel visible-light-responsive photocatalyst. KEY POINTS: • CdS nanowires were firstly synthesized in the inner center channel of TMV • TMV/CdS presented higher photocatalytic efficiency compared with template-free CdS • The O and OH were responsible for the photocatalytic reaction of TMV/CdS.

摘要

利用病毒作为模板来合成纳米材料是一种简单、绿色且可控的方法,可以获得具有独特结构的纳米粒子。在这项研究中,我们使用烟草花叶病毒(TMV)作为模板来合成 CdS 纳米线,并将其沉积在 TMV 的内部中心通道中。成功地对 TMV/CdS 进行了表征,结果表明其直径为 4.0nm,具有立方相组成和强荧光发射峰,吸收边为 566nm,带隙能为 2.28eV。带隙能比无模板的 CdS 更窄。此外,TMV/CdS 表现出增强的瞬态光电流,这归因于电子-空穴对的有效分离。测试了 TMV/CdS 和无模板 CdS 的光活性;结果表明,TMV/CdS 在亚甲基蓝(MB)光降解方面表现出更好的性能,表明 TMV/CdS 的光活性高于无模板的 CdS。进一步研究 TMV/CdS 的光催化机制表明,O 和 OH 是参与光催化的主要物质,而不是空穴(h)。因此,TMV/CdS 可能作为一种新型可见光响应光催化剂具有应用前景。关键点:• CdS 纳米线首次在 TMV 的内部中心通道中合成• TMV/CdS 表现出比无模板 CdS 更高的光催化效率• O 和 OH 负责 TMV/CdS 的光催化反应。

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