Fabrication of Visible Light Sensitive Electrospun TiO2 Nanofibers Using Squaric Acid for Photocatalytic Application

4区 材料科学 Q2 Materials Science
Eba Mala Maldaye, Sathiesh Kumar Subramaniam
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引用次数: 0

Abstract

Degradation of organic pollutants using photocatalysts has gained utmost importance, due to the increasing environmental pollution. Despite various attempts to improve the photocatalytic efficiency of well-known photocatalysts such as titanium dioxide (TiO2), by making them visible light active, various issues need to be resolved. In this work, attempts have been made to improve the visible light absorption capacities of the electrospun TiO2 nanofibers by modification using squaric acid (SqA). An interfacial charge transfer complex is formed by the condensation reaction between the hydroxyl groups on the surface of the TiO2 nanofibers and the SqA ligand. Various characterizations confirmed that the modification using SqA had led to the formation of the interfacial charge transfer layer, without affecting the crystallinity or morphology of the TiO2 nanofibers. The modified TiO2 nanofibers showed sensitivity to visible light with red shift in the optical absorption. It exhibited an improved photocatalytic efficiency of 85% against the degradation of tetracycline, compared with 60% for unmodified TiO2 nanofibers. It also showed an increased rate of degradation of 0.21 mg/L/min, when compared with the 0.13 mg/L/min of unmodified TiO2 nanofibers.
用方酸制备可见光敏感静电纺丝TiO2纳米纤维的光催化研究
随着环境污染的日益严重,利用光催化剂降解有机污染物显得尤为重要。尽管人们试图通过使二氧化钛(TiO2)等知名光催化剂具有可见光活性来提高其光催化效率,但仍有许多问题需要解决。在这项工作中,试图通过使用方酸(SqA)改性来提高静电纺TiO2纳米纤维的可见光吸收能力。TiO2纳米纤维表面的羟基与SqA配体发生缩合反应,形成界面电荷转移配合物。各种表征证实,使用SqA修饰导致了界面电荷转移层的形成,而不影响TiO2纳米纤维的结晶度和形貌。改性后的TiO2纳米纤维对可见光敏感,光吸收发生红移。它对四环素降解的光催化效率提高了85%,而未经改性的TiO2纳米纤维的光催化效率为60%。与未改性TiO2纳米纤维的0.13 mg/L/min相比,改性TiO2纳米纤维的降解率提高了0.21 mg/L/min。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Nanomaterials
Journal of Nanomaterials 工程技术-材料科学:综合
CiteScore
6.10
自引率
0.00%
发文量
577
审稿时长
2.3 months
期刊介绍: The overall aim of the Journal of Nanomaterials is to bring science and applications together on nanoscale and nanostructured materials with emphasis on synthesis, processing, characterization, and applications of materials containing true nanosize dimensions or nanostructures that enable novel/enhanced properties or functions. It is directed at both academic researchers and practicing engineers. Journal of Nanomaterials will highlight the continued growth and new challenges in nanomaterials science, engineering, and nanotechnology, both for application development and for basic research.
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