间隔排列的二氧化钛纳米管阵列可构建用于可见光捕获的高效氮掺杂分级结构。

Spaced Titania Nanotube Arrays Allow the Construction of an Efficient N-Doped Hierarchical Structure for Visible-Light Harvesting.

作者信息

Nguyen Nhat Truong, Ozkan Selda, Tomanec Ondrej, Zboril Radek, Schmuki Patrik

机构信息

Department of Materials Science and Engineering WW4-LKO University of Erlangen-Nuremberg Martensstrasse 791058 Erlangen Germany.

Regional Centre of Advanced Technologies and Materials, Department of Physical Chemistry, Faculty of Science Palacky University Slechtitelu 11783 71 Olomouc Czech Republic.

出版信息

ChemistryOpen. 2018 Jan 29;7(2):131-135. doi: 10.1002/open.201700199. eCollection 2018 Feb.

DOI:10.1002/open.201700199

PMID:29435398

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5792828/

Abstract

Regularly spaced TiO nanotubes were prepared by anodizing a titanium substrate in triethylene glycol electrolyte at elevated temperature. In comparison to conventional TiO nanotubes, spaced nanotubes possess an adjustable spacing between the individual nanotubes; this allows for controlled buildup of a hierarchical nanoparticle-on-nanotube structure. Here, we use this principle for layer-by-layer decoration of the tubes with TiO nanoparticles. The hierarchical structure after N doping and NH treatment at 450 °C shows a significant enhancement of visible-light absorption, although it only carries a low doping concentration of nitrogen. For optimized N-doped and particle-decorated spaced TiO nanotubes, a considerable improvement in photocatalytic activity is obtained in comparison with conventional N-doped TiO nanotubes or comparable N-doped nanoparticle films. This is attributed to an enhanced visible-light absorption through the N-doped nanoparticle shell and a fast charge separation between the shell and the one-dimensional nanotubular core.

摘要

通过在高温下于三甘醇电解质中对钛基底进行阳极氧化制备出了间距规则的TiO纳米管。与传统的TiO纳米管相比，间距纳米管在各个纳米管之间具有可调节的间距；这使得能够可控地构建纳米颗粒-纳米管分级结构。在此，我们利用这一原理对纳米管进行TiO纳米颗粒的逐层修饰。在450°C下进行N掺杂和NH处理后的分级结构显示出可见光吸收的显著增强，尽管其仅具有低浓度的氮掺杂。对于优化的N掺杂和颗粒修饰的间距TiO纳米管，与传统的N掺杂TiO纳米管或类似的N掺杂纳米颗粒薄膜相比，光催化活性有了相当大的提高。这归因于通过N掺杂纳米颗粒壳层增强的可见光吸收以及壳层与一维纳米管核心之间的快速电荷分离。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a7e2/5792828/9e3352c15c05/OPEN-7-131-g001.jpg

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间隔排列的二氧化钛纳米管阵列可构建用于可见光捕获的高效氮掺杂分级结构。

Spaced Titania Nanotube Arrays Allow the Construction of an Efficient N-Doped Hierarchical Structure for Visible-Light Harvesting.

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