Byproducts and pathways of toluene destruction via plasma-catalysis

“…In continuously introduced plasma system, the main identified by-products of toluene degradation were benzoic acid, benzaldehyde, benzyl alcohol and nitrophenol. The results in this work were similar to other reports [40,41]. As depicted in the insert of Fig.…”

“…It was reported that plasma catalytic of VOCs involved both homogeneous reaction in gas-phase and heterogeneous catalysis on the catalysts [40]. The homogeneous reaction occurs between gaseous pollutant molecules and active gas-phase radicals, while heterogeneous catalysis includes pollutant adsorption/desorption on the catalyst surface, adsorption of ozone and direct interaction Fig.…”

Plasma-catalysis of metal loaded SBA-15 for toluene removal: Comparison of continuously introduced and adsorption-discharge plasma system

“…In continuously introduced plasma system, the main identified by-products of toluene degradation were benzoic acid, benzaldehyde, benzyl alcohol and nitrophenol. The results in this work were similar to other reports [40,41]. As depicted in the insert of Fig.…”

“…It was reported that plasma catalytic of VOCs involved both homogeneous reaction in gas-phase and heterogeneous catalysis on the catalysts [40]. The homogeneous reaction occurs between gaseous pollutant molecules and active gas-phase radicals, while heterogeneous catalysis includes pollutant adsorption/desorption on the catalyst surface, adsorption of ozone and direct interaction Fig.…”

Plasma-catalysis of metal loaded SBA-15 for toluene removal: Comparison of continuously introduced and adsorption-discharge plasma system

“…It is difficult to develop efficient methods to reduce VOCs emission. Many attempts have been made to remove VOCs, including adsorption [5], catalytic combustion [6,7], biological degradation [8], and nonthermal plasma [9]. However, these methods still can't meet the increasingly stringent discharge standards due to their intrinsic limitations and the diversity of VOCs.…”

Efficient degradation of gaseous benzene by VUV photolysis combined with ozone-assisted catalytic oxidation: Performance and mechanism

“…Part of benzene can be oxidized into phenol by hydroxyl radical and others can be directly oxidized to ring-opening by-products. According to previous researches and TOF-MS spectra, phenyl radical could react with excited NO 2 • and OH• to form nitrobenzene and phenol, and phenol sequentially react with excited NO 2 • to form p-nitrophenol [22]. P-nitrotoluene appeared due to the reaction of toluene with radicals [23].…”

In situ FT-IR study and evaluation of toluene abatement in different plasma catalytic systems over metal oxides loaded γ-Al2O3