Insights into Chlorobenzene Catalytic Oxidation over Noble Metal Loading {001}-TiO 2 : The Role of NaBH 4 and Subnanometer Ru Undergoing Stable Ru 0 ↔ Ru 4+ Circulation.

Catalytic combustion of ubiquitous chlorinated volatile organic compounds (CVOCs) encounters bottlenecks regarding catalyst deactivation by chlorine poisoning and generation of toxic polychlorinated byproducts. Herein, Ru, Pd, and Rh were loaded on {001}-TiO 2 for thermal catalytic oxidation of chlorobenzene (CB), with Ru/{001}-TiO 2 representing superior reactivity, CO 2 selectivity, and stability in the 1000 min on-stream test. Interestingly, both acid sites and reactive active oxygen species (ROS) were remarkably promoted via adding NaBH 4 . But merely enhancing these active sites of the catalyst in CVOC treatment is insufficient. Continuous deep oxidation of CB with effective Cl desorption is also a core issue successfully tackled through the steady Ru 0 ↔Ru 4+ circulation. This circulation was facilitated by the observed higher subnanometer Ru dispersion on {001}-TiO 2 than the other two noble metals that was supported by single atom stability DFT calculation. Nearly 88 degradation products in off-gas were detected, with Ru/{001}-TiO 2 producing the lowest polychlorinated benzene byproducts. An effective and sustainable CB degradation mechanism boosted by the cooperation of NaBH 4 enhanced active sites and Ru circulation was proposed accordingly. Insights gained from this study open a new avenue to the rational design of promising catalysts for the treatment of CVOCs.