Dual Active Sites on Molybdenum/ZSM-5 Catalyst for Methane Dehydroaromatization: Insights from Solid-State NMR Spectroscopy

Methane dehydroaromatization (MDA) on Mo/ZSM-5 zeolite catalyst is promising for direct transformation of natural gas. Understanding the nature of active sites on Mo/ZSM-5 is a challenge for applications. Herein, using H-1{Mo-95} double-resonance solid-state NMR spectroscopy, we identify proximate dual active sites on Mo/ZSM-5 catalyst by direct observation of internuclear spatial interaction between Bronsted acid site and Mo species in zeolite channels. The acidic proton-Mo spatial interaction is correlated with methane conversion and aromatics formation in the MDA process, an important factor in determining the catalyst activity and lifetime. The evolution of olefins and aromatics in Mo/ZSM-5 channels is monitored by detecting their host-guest interactions with both active Mo sites and Bronsted acid sites via H-1{Mo-95} double-resonance and two-dimensional H-1-H-1 correlation NMR spectroscopy, revealing the intermediate role of olefins in hydrocarbon pool process during the MDA reaction.

Automated summary

This study identified proximate dual active sites on Mo/ZSM-5 catalyst, revealing the crucial role of spatial interaction between Bronsted acid sites and Mo species in methane conversion and aromatics formation. The evolution of olefins and aromatics in Mo/ZSM-5 channels was monitored, showing the intermediate role of olefins in the hydrocarbon pool process during the MDA reaction.