Structural transformation of kaolin as an active matrix for the in situ synthesis of zeolite Y

To produce an optimized matrix for the in situ crystallization of zeolite Y, a commercial kaolin chemically treated with NaOH solution at 97°C for 24 h and thermally transformed from 750 to 1100°C was studied. The kaolin calcined at 750°C has 20% more reactive tetrahedral aluminium species for the s...

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Veröffentlicht in:Clay minerals 2020-12, Vol.55 (4), p.293-302
Hauptverfasser: Padilla, Jessyka, Guzman, Alexander, Molina, Daniel V, Poveda-Jaramillo, Juan Carlos
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Sprache:eng
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Zusammenfassung:To produce an optimized matrix for the in situ crystallization of zeolite Y, a commercial kaolin chemically treated with NaOH solution at 97°C for 24 h and thermally transformed from 750 to 1100°C was studied. The kaolin calcined at 750°C has 20% more reactive tetrahedral aluminium species for the synthesis of zeolite Y than kaolin calcined at 865°C. The kaolin calcined at 1000°C has amorphous silica zones that may be extracted using caustic solution; this increases the surface area by a factor of 16 and generates mesopores ∼5 nm in diameter. These structural changes in the calcined and treated kaolins were combined to prepare microspheres of the mesoporous matrix, upon which well-dispersed crystals of zeolite Y crystallized.
ISSN:0009-8558
1471-8030
DOI:10.1180/clm.2020.40