Recent advances in TiO2 nanotube layers – A mini review of the latest developments in nanotube preparation and applications in photocatalysis and microwave sensing

Hanna Sopha, Mahnaz Alijani, Marcela Sepúlveda, Jan M. Macak
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Abstract

Abstract Self‐organized anodic TiO 2 nanotube (TNT) layers prepared by anodization of Ti substrates have attracted great interest within the last 20 years, due to their unique properties and low‐cost synthesis. This mini review article aims to shortly summarize the most recent developments in the TNT layer synthesis and applications. It presents the synthesis of high aspect ratio (HAR) TNT layers in a short time by accelerating the TNT layer growth rates in lactic acid containing electrolytes. Furthermore, the etching of TNT layers towards TNT bundles of homogeneous size and single tube powders is discussed, as well as the possibility to grow TNT layers on non‐planar Ti substrates, which cannot be directly connected to the potentiostat (e.g., Ti spheres or 3D Ti meshes). As a relatively new application, the employment of TNT layers in microwave resonator sensors is introduced. Last, but not least, approaches of upscaling the TNT layer size from the laboratory scale towards significantly larger scale are outlined and reviewed.
二氧化钛纳米管层的最新进展-综述了纳米管制备及其在光催化和微波传感中的应用的最新进展
在过去的20年里,由钛基阳极氧化制备的自组织二氧化钛纳米管(TNT)由于其独特的性能和低成本的合成引起了人们的极大兴趣。这篇小型综述文章旨在简要总结TNT层合成和应用的最新进展。通过在含电解质的乳酸中加快TNT层的生长速度,在短时间内合成了高纵横比(HAR) TNT层。此外,本文还讨论了TNT层对尺寸均匀的TNT束和单管粉末的蚀刻,以及在非平面Ti衬底上生长TNT层的可能性,这些衬底不能直接连接到恒电位器(例如,Ti球体或3D Ti网格)。作为一种较新的应用,介绍了TNT层在微波谐振器传感器中的应用。最后,但并非最不重要的是,将TNT层尺寸从实验室规模扩大到更大规模的方法进行了概述和回顾。
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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