Controllable deposition of titanium dioxides onto carbon nanotubes in aqueous solutions

TL;DR

This paper presents a method for controllably depositing titanium dioxide onto carbon nanotubes using a chemical bath process, enhancing surface area and mesostructure content for potential nanotechnology applications.

Contribution

It introduces a controllable chemical deposition technique for titanium dioxide on carbon nanotubes, enabling selective rutile and anatase phases at near room temperature.

Findings

Surface area increased nearly four times

Mesostructure content significantly improved

Controlled phase deposition achieved

Abstract

Within the field of nanotechnology, nano-scale composites have significant potential in the development of advanced materials for functional applications. Here, composites based on carbon nanotubes and titanium dioxides have been prepared with titanyl sulfate using a chemical bath deposition method at or near room temperature. Two kinds of titanium dioxide depositions corresponding to rutile and anatase were sheathed on carbon nanotubes evenly by adjusting the precursor concentration and temperature. Possible composite mechanisms are discussed. Compared with original tubes, the specific surface areas have been improved nearly four times and the content ratio of mesostructures has also been increased after deposition processes.