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Unravelling the pathway determining the CO2 selectivity in photocatalytic toluene oxidation on TiO2 with different particle size

CHEMICAL ENGINEERING JOURNAL [2023]
Shaoyu Yuan, Xiaolei Bao, Min Chen, Xiaoxiao Qin, Xueyan Chen, Jianghao Zhang, Changbin Zhang
ABSTRACT

The rapid intermediate species accumulation on TiO 2 induces the deactivation and is a long-standing unsolved issue in the photocatalytic oxidation of volatile organic compounds (VOCs). Exploring efficient pathway to achieve deep oxidation is of crucial significance. In this study, we observed that TiO 2 with small particle size (S-TiO 2 ) had high toluene conversion but low CO 2 mineralization, while TiO 2 with large particle size (L-TiO 2 ) had low toluene conversion but high CO 2 mineralization. The characterization results showed that S-TiO 2 had a larger specific surface area and more surface hydroxyl groups than L-TiO 2 , which accounted for its higher toluene conversion. Additionally, low toluene adsorption but a larger quantity of reactive oxygen species (ROS) was observed on L-TiO 2 . Our findings further revealed that toluene on S-TiO 2 was initially oxidized to benzene-ring-containing intermediate species by ROS. However, the accumulation of these species suppressed the ROS production and blocked the ring-opening reaction, resulting in low CO 2 selectivity. In contrast, nearly no intermediate species was accumulated on L-TiO 2 due to the low toluene adsorption and abundant ROS production, which allowed the photocatalytic oxidation of toluene on L-TiO 2 to follow the direct ring-opening pathway and achieve higher CO 2 selectivity. This study provides new insight into the mechanism of the photocatalytic oxidation of VOCs.

MATERIALS

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