Formation of a Nanorod-Assembled TiO2 Actinomorphic-Flower-like Microsphere Film via Ta Doping Using a Facile Solution Immersion Method for Humidity Sensing

This study fabricated tantalum (Ta)-doped titanium dioxide with a unique nanorod-assembled actinomorphic-flower-like microsphere structured film. The Ta-doped TiO2 actinomorphic-flower-like microsphere (TAFM) was fabricated via the solution immersion method in a Schott bottle with a home-made improvised clamp. The samples were characterised using FESEM, HRTEM, XRD, Raman, XPS, and Hall effect measurements for their structural and electrical properties. Compared to the undoped sample, the rutile-phased TAFM sample had finer nanorods with an average 42 nm diameter assembled to form microsphere-like structures. It also had higher oxygen vacancy sites, electron concentration, and mobility. In addition, a reversed double-beam photoacoustic spectroscopy measurement was performed for TAFM, revealing that the sample had a high electron trap density of up to 2.5 mu molg(-1). The TAFM showed promising results when employed as the resistive-type sensing film for a humidity sensor, with the highest sensor response of 53,909% obtained at 3 at.% Ta doping. Adding rGO to 3 at.% TAFM further improved the sensor response to 232,152%.

Automated summary

This study fabricated a unique nanorod-assembled actinomorphic-flower-like microsphere structured film of tantalum (Ta)-doped titanium dioxide. The Ta-doped TiO2 actinomorphic-flower-like microsphere (TAFM) was prepared via the solution immersion method. Characterization of the samples using various techniques showed that the rutile-phased TAFM sample had finer nanorods with enhanced electrical properties. It was also found that the TAFM exhibited high electron trap density and showed promising results as a resistive-type sensing film for a humidity sensor.