Catalysts (May 2015)

The Role of Ozone in the Reaction Mechanism of a Bare Zeolite-Plasma Hybrid System

  • Yoshiyuki Teramoto,
  • Hyun-Ha Kim,
  • Nobuaki Negishi,
  • Atsushi Ogata

DOI
https://doi.org/10.3390/catal5020838
Journal volume & issue
Vol. 5, no. 2
pp. 838 – 850

Abstract

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We investigated the reaction mechanism of a metal-unloaded zeolite-plasma hybrid system for decomposition of toluene at room temperature. Short-lived radicals and fast electrons did not contribute substantially to the reaction mechanism of toluene decomposition in the zeolite-plasma hybrid system. The main factor enhancing the reaction mechanism was gas-phase O3 directly reacting with toluene adsorbed onto the zeolite (the Eley-Rideal mechanism). CO2 selectivity was not improved by using H-Y zeolite due to its low ability to retain the active oxygen species formed by O3. The gas-phase O3 reacted with adsorbed toluene to form a ring cleavage intermediate that was slowly converted into formic acid. The decomposition rate of formic acid was much lower than that of toluene on the H-Y surface.

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