1. Decorating {0 0 1} TiO2 nanosheets on hydrophobic NaY zeolite: An efficient deactivation-resistant photocatalyst for gaseous toluene removal.
- Author
-
Tang, Juntao, Fu, Mengying, Mao, Yidan, Yang, Shuyi, Lin, Wei, Yu, Yan, and Song, Shuang
- Subjects
- *
TOLUENE , *CATALYST poisoning , *PHOTOCATALYSTS , *TITANIUM dioxide , *ZEOLITES , *CATALYST structure , *POLLUTION remediation , *AIR purification - Abstract
[Display omitted] • A novel catalyst comprising hydrophobic NaY zeolite decorated with TiO 2 , TiO 2 @HYZ, has been successfully constructed. • Hydrophobic NaY zeolite could facilitate the adsorption of toluene by hindering the water diffusion. • TiO 2 @HYZ showed excellent anti-deactivation performance with effective toluene removal. • The possible anti-deactivation mechanism of TiO 2 @HYZ was proposed. Photocatalysis is regarded as a promising in situ air purification technology for the removal of volatile organic compounds. However, the deactivation of photocatalysts remains a serious issue that needs to be addressed. Herein, we report a novel dual-functional photocatalyst (TiO 2 @HYZ) with spatially separated catalytic sites and adsorption sites, which has been obtained by combining hydrophilic {0 0 1} TiO 2 nanosheets with hydrophobic NaY zeolite. TiO 2 @HYZ showed excellent photocatalytic activity for the degradation of gaseous toluene under UV irradiation in humid air. The optimized TiO 2 @HYZ-2 (containing 45.7 wt% TiO 2) achieved 96.6% toluene removal and 87.4% mineralization within 120 min. The specific reaction rate constant of TiO 2 @HYZ-2, pristine TiO 2 and P25 normalized by the unit amount of TiO 2 during the photocatalytic degradation process were calculated to be 0.481, 0.230 and 0.250 min−1 g−1, respectively. Moreover, TiO 2 @HYZ-2 showed superior durability, maintaining stable performance over repeated toluene degradation processes, even at high toluene concentration, whereas pristine TiO 2 incurred severe deactivation with increasing number of photocatalysis cycles. The significantly enhanced activity and anti-deactivation property was attributed to a synergistic effect between HYZ and TiO 2 in the catalyst structure, which strengthened the adsorption of toluene on HYZ and facilitated effective separation of photoexcited charge carriers on TiO 2 , thus avoiding the deposition of degradation intermediates on the active sites and simultaneously improving mineralization. This work provided a new perspective for the design of efficient and deactivation-resistant photocatalysts for air pollution remediation. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF