Preparation of a New Type of Black TiO2 under a Vacuum Atmosphere for Sunlight Photocatalysis

Reza Katal; Mojtaba Salehi; Mohammad Hossein Davood Abadi Farahani; Saeid Masudy-Panah; Say Leong Ong; Jiangyong Hu

doi:10.1021/acsami.8b14680

Preparation of a New Type of Black TiO₂ under a Vacuum Atmosphere for Sunlight Photocatalysis

ACS Appl Mater Interfaces. 2018 Oct 17;10(41):35316-35326. doi: 10.1021/acsami.8b14680. Epub 2018 Oct 2.

Authors

Reza Katal¹, Mojtaba Salehi², Mohammad Hossein Davood Abadi Farahani³, Saeid Masudy-Panah⁴, Say Leong Ong¹, Jiangyong Hu¹

Affiliations

¹ Department of Civil & Environmental Engineering , National University of Singapore , 117576 , Singapore.
² Department of Mechanical Engineering , National University of Singapore , 117575 , Singapore.
³ Department of Chemical & Biomolecular Engineering , National University of Singapore , 117585 , Singapore.
⁴ Department of Electrical and Computer Engineering , National University of Singapore , 119260 , Singapore.

PMID: 30226370
DOI: 10.1021/acsami.8b14680

Abstract

Black TiO₂ as a solar-driven photocatalyst has attracted enormous attention from scientists and engineers in water and wastewater treatment field. Most of the methods used for the preparation of black TiO₂ are thermal treatment under a hydrogen atmosphere. Nevertheless, it is well known that working with hydrogen is not safe and needs special maintenance. Here, for the first time, we prepared black TiO₂ by sintering P25 pellets at different temperatures (500-800 °C) under a vacuum atmosphere that showed the same performance with the prepared black TiO₂ under a hydrogen atmosphere. The samples were characterized by X-ray diffraction, Raman spectra field emission scanning electron microscopy, transmission electron microscopy, electron paramagnetic resonance, X-ray photoelectron spectroscopy, and ultraviolet-visible deep resistivity sounding techniques. The differences between the formation of oxygen vacancy density and color turning in sintered powder and pellet were also studied. The results showed that the color of the P25 powder became darker after sintering but not completely turning to black, whereas the P25 pellets completely turned black after sintering. The resultant black TiO₂ was used for the photocatalytic degradation of the acetaminophen (ACE) in aqueous solution under AM 1.5G solar light illumination; it was found that the P25 pellet sintered in 500 °C had the highest photocatalytic performance for ACE degradation under AM 1.5G solar light illumination. The photocatalytic activity of prepared black TiO₂ under vacuum and hydrogen atmospheres was also compared together; the results showed that photocatalytic activities of both samples were so close together. The existence of the oxygen vacancy after 6 months and long and short-term stability (by application for photocatalytic degradation of ACE in an aqueous solution) of the black TiO₂ pellets was also studied; the results showed that the TiO₂ pellets in aqueous phase had acceptable stability.

Keywords: acetaminophen; black TiO2; pellet; photocatalytic reaction; sunlight; vacuum.