铋掺杂二氧化钛在阳光和紫外光下增强的光催化性能：机理洞察与对比分析。

Enhanced photocatalytic performance of Bi-doped TiO under sunlight and UV light: mechanistic insights and comparative analysis.

作者信息

Mishra Saurav, Chakinala Nandana, Sethia Govind, Chakinala Anand G, Surolia Praveen K

机构信息

Solar Energy Conversion and Nanomaterials Laboratory, Department of Chemistry, Manipal University Jaipur, Jaipur, Rajasthan, 303007, India.

Chemical Reaction Engineering Laboratory, Department of Biotechnology and Chemical Engineering, Manipal University Jaipur, Jaipur, Rajasthan, 303007, India.

出版信息

Photochem Photobiol Sci. 2024 Aug;23(8):1495-1507. doi: 10.1007/s43630-024-00609-3. Epub 2024 Jul 15.

DOI:10.1007/s43630-024-00609-3

PMID:39008233

Abstract

Bismuth-doped metal oxides exhibit favourable photocatalytic features when exposed to both sunlight and UV light. In this approach, Bi/TiO and Bi/TiO photocatalysts were prepared and their structural and optical properties are analysed using various characterization techniques. These developed photocatalysts were further tested for the photocatalytic elimination of Nitrobenzene in UV light and sunlight and compared with the performance of bare TiO. The catalyst Bi/TiO performed better in UV light with 72.31% degradation, and 4.74 × 10 mol.litre.min initial rate of reaction. However, when exposed to sunlight, Bi/TiO outperformed with 73.85% degradation, and 4.63 × 10 mol.min initial rate of reaction. This significant increase in photocatalytic activity of Bi/TiO under sunlight could be accredited to increased light harvesting and enhanced efficiency in charge carrier separation, both of which were made possible by bismuth-induced surface plasmon resonance.

摘要

铋掺杂金属氧化物在阳光和紫外光照射下都表现出良好的光催化特性。采用这种方法制备了Bi/TiO和Bi/TiO光催化剂，并使用各种表征技术分析了它们的结构和光学性质。进一步测试了这些开发的光催化剂在紫外光和阳光中对硝基苯的光催化消除效果，并与纯TiO的性能进行了比较。催化剂Bi/TiO在紫外光下表现更好，降解率为72.31%，初始反应速率为4.74×10摩尔·升·分钟。然而，在阳光照射下，Bi/TiO表现更优，降解率为73.85%，初始反应速率为4.63×10摩尔·分钟。Bi/TiO在阳光下光催化活性的显著提高可归因于光捕获增加和电荷载流子分离效率提高，这两者都是由铋诱导的表面等离子体共振实现的。

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铋掺杂二氧化钛在阳光和紫外光下增强的光催化性能：机理洞察与对比分析。

Enhanced photocatalytic performance of Bi-doped TiO under sunlight and UV light: mechanistic insights and comparative analysis.

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