Abstract Zeolite nanosheets are two-dimensional zeolitic materials with sheet-like morphology and a thickness of less than 100 nm. Compared with conventional three-dimensional zeolites, they possess larger external surface areas, shortened diffusion pathways, and more accessible external active sites, which effectively alleviate diffusion limitations and enhance catalytic efficiency. In recent years, with the development of synthesis strategies, zeolite nanosheets with various framework structures have been successfully prepared and have demonstrated significant application potential in heterogeneous catalysis. This review summarizes recent advances in the applications of zeolite nanosheets in reactions such as alkylation, catalytic cracking, isomerization, methanol conversion, and biomass transformation. Their applications in metal/zeolite bifunctional catalysis and adsorption-separation are also discussed. Finally, future development directions are proposed to provide references for further research and industrial applications.
YANG Jingyu,GONG Yudan,MA Duozheng et al. Recent Progress in the Applications of Zeolite Nanosheets[J]. Chemical Reaction Engineering and Technology, 2026, 42(3): 272-282.
YANG Jingyu,GONG Yudan,MA Duozheng et al. Recent Progress in the Applications of Zeolite Nanosheets[J]. Chemical Reaction Engineering and Technology, 2026, 42(3): 272-282.