Title

Protonated g-C3N4/Ti3+ Self-Doped TiO2 Nanocomposite Films: Room-Temperature Preparation, Hydrophilicity, and Application for Photocatalytic NOx Removal

Authors

HUANG, Yu; WANG, Pengge; WANG, Zhenyu; RAO, Yongfang; CAO, Jun-ji; PU, Shengyan; HO, Wingkei; LEE, Shun Cheng

Abstract

Fabrication of photocatalysis films with good adhesion, hydrophilicity, and high activity on substrates at room temperature is essential for their application in air pollution control. Herein, functionalized transparent composite films containing ultrathin protonated g-C3N4 (pCN) nanosheets and Ti3+ self-doped TiO2nanoparticles (pCN/TiO2) were fabricated on glass at room temperature. Thickness of the films measures 80？nm with surface roughness of 7.16？nm. The adhesion ability was attributed to the viscosity of TiO2 sol, which served as “chemical glue” in the films. The high photo-induced hydrophilicity demonstrated their self-cleaning potential. pCN/TiO2 films showed remarkably high visible-light-driven activity in terms of NO removal in a continuous-flow mode. Photoelectrochemical tests demonstrated the superior charge separation efficiency of pCN/TiO2 films compared with that of pristine TiO2. As identified by electron spin resonance spectra, O2？ and OH radicals were the key reactive species involved in NO removal. The possible mechanism for photocatalytic NO oxidation was proposed. Potential cytotoxicity of pCN/TiO2 films was evaluated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay to ensure the biosecurity. This work provides a facile route to fabricate nanocomposite films under ambient temperature. The nanocomposite films were characterized by photo-induced hydrophilicity, high NO removal efficiency, and good biocompatibility, showing its potential in large-scale application.

Corresponding author

HUANG, Yu

Volume

240

Issue

Page

122-131

Pub year

2019

Publication name

Applied Catalysis B: Environmental

Details

https://www.sciencedirect.com/science/article/pii/S0926337318308166