原位制备Bi2Ti2O7/TiO2异质结构亚微米纤维以增强光催化活性

In Situ Fabrication of Bi2Ti2O7/TiO2 Heterostructure Submicron Fibers for Enhanced Photocatalytic Activity.

作者信息

Zhou Di, Yang Hu, Tu Yafang, Tian Yu, Cai Yaxuan, Hu Zhenglong, Zhu Xiaolong

机构信息

School of Physics and Information Engineering, Jianghan University, Wuhan, 430056, China.

Faculty of Physics and Electronic Technology, Hubei University, Wuhan, 430062, China.

出版信息

Nanoscale Res Lett. 2016 Dec;11(1):193. doi: 10.1186/s11671-016-1408-7. Epub 2016 Apr 12.

DOI:10.1186/s11671-016-1408-7

PMID:27071680

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4829568/

Abstract

A facile two-step synthesis route combining electrospinning and hydrothermal techniques has been performed to obtain Bi2Ti2O7/TiO2 heterostructured submicron fibers. Bi2Ti2O7 nanosheets were grown on the surface of TiO2 submicron fibers. The density of the nanosheets increased with higher precursor concentration of the Bi/Ti reaction raw materials. UV-visible (UV-vis) diffuse reflectance spectroscopy indicated that the absorption spectrum of the Bi2Ti2O7/TiO2 composite extended into the visible-light region. Photocatalytic tests showed that the Bi2Ti2O7/TiO2 heterostructures possess a much higher degradation rate of rhodamine B than the unmodified TiO2 submicron fibers under visible light. The enhanced photocatalytic activity can be attributed to the synergistic effect between improved visible-light absorption and the internal electric field created by the heterojunctions. The effective separation of photogenerated carriers driven by the photoinduced potential was demonstrated by the photoelectrochemical analysis.

摘要

通过结合静电纺丝和水热技术的简便两步合成路线制备了Bi2Ti2O7/TiO2异质结构亚微米纤维。Bi2Ti2O7纳米片生长在TiO2亚微米纤维表面。纳米片的密度随着Bi/Ti反应原料前驱体浓度的增加而增大。紫外-可见（UV-vis）漫反射光谱表明，Bi2Ti2O7/TiO2复合材料的吸收光谱延伸到可见光区域。光催化测试表明，在可见光下，Bi2Ti2O7/TiO2异质结构对罗丹明B的降解速率比未改性的TiO2亚微米纤维高得多。增强的光催化活性可归因于可见光吸收改善与异质结产生的内电场之间的协同效应。光电子化学分析证明了光生载流子在光诱导电势驱动下的有效分离。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c75/4829568/97c7f5f428e8/11671_2016_1408_Fig1_HTML.jpg

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原位制备Bi2Ti2O7/TiO2异质结构亚微米纤维以增强光催化活性

In Situ Fabrication of Bi2Ti2O7/TiO2 Heterostructure Submicron Fibers for Enhanced Photocatalytic Activity.

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