On the physico-chemical properties of hierarchical zeolites prepared by top-down and bottom-up approaches

G. Ancora, F. Morari, Julio Cesar Fernandes Pape Brito, Leonardo MARCHESE, CHIARA BISIO, Enrica GIANOTTI

Risultato della ricerca: Contributo alla conferenzaPosterpeer review

Abstract

Hierarchical zeolites, which exhibit a distinctive structure characterized by interconnected micropores and mesopores, are versatile materials that can overcome the typical issues related to microporous materials, including poor mass transfer, hindered diffusion, and strict selectivity of resulting products (Fig. 1). Typically, hierarchical porous materials can be obtained through bottom-up or top-down approaches. The former introduces dual porosity during synthesis, while the latter employs a post-synthetic step on a pre-existing microporous matrix. [1,2] In this contribution, both approaches were applied to synthesize hierarchical porous materials with different properties. In detail: two commercial zeolites, HZSM-5 and Y (both with SiO2/Al2O3 = 80) with a MFI and FAU structure respectively, and a natural clinoptilolite (HEU) were desilicated through a top-down approach using NaOH solutions at varying concentrations, to evaluate the treatment efficiency. In parallel, two different hierarchical SAPO-34 (CHA) were obtained through a bottom-up approach, using either non calcined MCM-41 or SBA-15, which serve as both Si source and mesoporogen. The synthesized hierarchical architectures were characterized by multi-technique approach using XRD, N2 physisorption at 77K, TGA and FTIR spectroscopy of adsorbed probe molecules, to assess the nature, strength and accessibility of the acid sites. The generated hierarchical zeolites hold potential applications in various fields, such as heterogeneous catalysis and as adsorbents toward cationic species in solution (i.e. metal ions), either individually or in combination, depending on the quantity of captured metal and its coordination state. Dr. Gioele Ancora holds a PhD career grant supported by Next Generation EU – MUR.
Lingua originaleInglese
Stato di pubblicazionePubblicato - 2024
Evento9th International Workshop of Layered and Nanostructured Materials (IWLNM 24) - Perugia (PG)
Durata: 1 gen 2024 → …

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???event.eventtypes.event.conference???9th International Workshop of Layered and Nanostructured Materials (IWLNM 24)
CittàPerugia (PG)
Periodo1/01/24 → …

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