Seeded growth of urea-promoted ZSM-5 nanoplates with short b -axis thickness for enhanced methanol-to-olefin reactions
Key Points
To explore the synthesis of ultrathin ZSM-5 nanoplates to improve methanol-to-olefins conversion efficiency.
Used urea-nanoseed-assisted strategy
Synthesized ultrathin ZSM-5 nanoplates with 30–80 nm thickness
Evaluated catalyst performance in methanol-to-olefins reactions
Enhanced mass transfer observed due to ultrathin structures
Increased catalyst lifespan compared to thicker alternatives
Significant improvement in the efficiency of methanol-to-olefins conversion
Abstract
Sustainable synthesis of ultrathin ZSM-5 nanoplates ( b -axis: 30–80 nm) via a urea-nanoseed- assisted strategy enhances mass transfer and catalyst lifespan in methanol-to-olefins conversion.
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Seeded growth of urea-promoted ZSM-5 nanoplates with short b -axis thickness for enhanced methanol-to-olefin reactions | Synapse