The relationship between sub-micrometer sized ZSM-5, slice-like (lamellar) keatite and hollow α-quartz particles : A phase transformation study (CROSBI ID 189337)
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Ren, Nan ; Bronić, Josip ; Bosnar, Sanja ; Dutour Sikirić, Maja ; Antonić Jelić, Tatjana ; Mao, Jian-Jiang ; Subotić, Boris
engleski
The relationship between sub-micrometer sized ZSM-5, slice-like (lamellar) keatite and hollow α-quartz particles : A phase transformation study
Crystallization/transformation processes in the reaction mixture: 4Na2O-0.1667Al2O3-100SiO2-4000H2O) seeded with 4 wt. % of 260-nm silicalite-1 seeds, at 170 oC were investigated by various experimental methods such as, X-ray diffraction (XRD), electron diffraction (ED), scanning-electron microscopy (SEM), transmission electron microscopy (TEM), particle size analysis (PSD), pH measurement, atomic absorption spectrometry (AAS) and dynamic light scattering (DLS). Analysis of the obtained results have shown that the crystallization/transformation takes place by a chain of processes: (i) dissolution of amorphous silica (used as silica source), and formation of 10 –50 nm precursor species (PSs), (ii) spending of the PSs for both the limited growth of zeolite ZSM-5 on the surfaces of silicalite-1 seed crystals and formation of worm-like particles (WLPs), (iii) formation of condensed aggregates (CAs) by aggregation/condensation of the WLPs ; a part of the composite particles, composed of silicalite-1 core and ZSM-5 shell are incorporated into CAs, (iv) nucleation of keatite followed by solution-mediated transformation of the condensed WLPs into lamellar keatite, (v) nucleation of -quartz followed by solution-mediated transformation of keatite into -quartz ; a part of nuclei of -quartz are formed at the surfaces of the core/shell silicalite-1/ZSM-5 composite species and another part of nuclei are formed in the vicinity of the dissolving keatite and (vi) dissolution of the silicalite-1 core and a major part of ZSM-5 “interlayer” of the composite particles (-quartz shell-ZSM-5 “interlayer”-silicalite-1 core) and formation of hollow -quartz particles with a thin ZSM-5 layer on the inner surfaces of the hollow -quartz particles. Occurrences of all the mentioned processes are rationally analyzed and explained on the basis of the existing and newly obtained knowledge.
crystallization ; transformation ; mechanism ; Zeolite ZSM-5 ; lamellar keatite ; hollow α-quartz
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