Tailored Synthesis of ZSM-5 Nanosheets with Controllable b-Axis Thickness and Aspect Ratio: Strategy and Growth Mechanism

The b-axis-oriented ZSM-5 zeolite is regarded as a highly desired material for catalytic reactions and membrane separation. Here, the tailored synthesis of ultrathin ZSM-5 nanosheets with controllable b-axis thickness and aspect ratio is achieved by adjusting the amount and aging time of silicalite-1 seed suspension in the fluoride medium for crystallization in a short time. On the basis of synthesis and scanning electron microscopy (SEM), transmission electron microscopy (TEM), and F-19 MAS NMR analysis, the seed suspension overcomes the difficulty of nucleation in a near-neutral solution, and its [010] crystal facet facilitates the adsorption of fluoride, which promotes the b-axis-oriented growth of nanosheets. This work highlights the important role of seed suspension and fluoride in the growth process. The thinner nanosheets exhibit better catalytic performance (conversion, lifetime, and resistance to deactivation) in the cracking of n- heptane, which can be attributed to their larger surface area and shorter straight channel length. It is anticipated that ZSM-5 nanosheets can be widely used in catalytic reactions that are more sensitive to diffusion limitation.

Automated summary

The tailored synthesis of ultrathin ZSM-5 nanosheets with controllable b-axis thickness and aspect ratio was achieved by adjusting the amount and aging time of silicalite-1 seed suspension in the fluoride medium. The seed suspension and fluoride played important roles in the growth process of nanosheets. Thinner nanosheets showed better catalytic performance.