MnO2 nanoparticles supported on CNTs for cumene oxidation: Synergistic effect and kinetic modelling

Synergistic effects between the carbon materials and metal oxides usually are considered as the significant factor in the selective oxidation of hydrocarbons. In current study, MnO2/CNTs catalysts were prepared under mild condition and applied in the cumene oxidation. As high as 73.44% cumene conversion with 59.06% selectivity of 2-phenyl-2-propanol(PP) was obtained over 21.23-MnO2/CNTs, which is much higher than those of CNTscatalysis and MnO2-catalysis systems. The decomposition of cumene hydroperoxide (CHP), a key step for cumene oxidation, was proved to be facilitated by the interaction between MnO2 nanoparticles and CNTs, which also confirmed from the DFT calculations. These results demonstrated that the synergistic effect between MnO2 nanoparticles and CNTs would greatly enhance the activity and tune the distribution of products selectivity. The kinetic modeling study in this work further revealed that the interactions between MnO2 nanoparticles and CNTs would accelerate all the elementary steps, especially, the homolytic cleavage of CHP. The reaction rate constant (k80 = 9 h-1) for 21.23-MnO2/CNTs is 450-folds of CNTs (k80 = 0.02 h-1). Moreover, the concentration distributions of acetophenone (AP) and PP were well illustrated from the kinetic study.

Automated summary

The synergistic effects between carbon materials and metal oxides play a significant role in the selective oxidation of hydrocarbons. In this study, MnO2/CNTs catalysts were prepared and used in the cumene oxidation reaction, showing high conversion and selectivity. The interaction between MnO2 nanoparticles and CNTs was found to facilitate the decomposition of cumene hydroperoxide, leading to enhanced activity and tunable selectivity of products.