Modification of Zeolite Morphology via NH₄F Etching for Catalytic Bioalcohol Conversion

Abstract: Various commercial zeolites, including FER, MOR, ZSM‐5, BEA, and FAU frameworks, were treated with NH4F aqueous solutions to study the effects of fluoride etching on different zeolite frameworks. NH4F‐treated small‐medium pore FER, MOR, and ZSM‐5 samples showed much higher mesoporosities than the untreated ones without alteration of the structural compositions and acidic properties. On the other hand, the 12‐membered ring zeolites BEA and FAU showed severe dissolution of the framework aluminosilicate structure… Show more

“…Zeolites, possessing a substantial surface area, well-structured microporous properties, and adjustable acidity, play a pivotal role in a diverse range of industrial applications, spanning from separation processes to catalytic reactions. − Among the 255 distinct zeolite frameworks identified, the MFI structure stands out due to its distinctive spatial characteristics characterized by a three-dimensional (3D) interconnected pore network. ZSM-5, originally developed by researchers at Mobil Oil Corporation (now ExxonMobil) during the 1960s, has since emerged as a paramount catalyst in various catalytic processes.…”

Accelerated Crystallization Kinetics of MFI Zeolite via Imidazolium-Based Synthesis

“…Zeolites, possessing a substantial surface area, well-structured microporous properties, and adjustable acidity, play a pivotal role in a diverse range of industrial applications, spanning from separation processes to catalytic reactions. − Among the 255 distinct zeolite frameworks identified, the MFI structure stands out due to its distinctive spatial characteristics characterized by a three-dimensional (3D) interconnected pore network. ZSM-5, originally developed by researchers at Mobil Oil Corporation (now ExxonMobil) during the 1960s, has since emerged as a paramount catalyst in various catalytic processes.…”

Accelerated Crystallization Kinetics of MFI Zeolite via Imidazolium-Based Synthesis

Enhancing the catalytic properties of silicalite-1 through ammonium fluoride modification for waste glycerol acetalization