Abstract
Although micro-mesoporous composite molecular sieves have received significant attention due to their desirable properties, they still lack systematic studies on their crystallization process to achieve controllable synthesis of composite molecular sieves. In this study, a series of Y/SBA-15 micro-mesoporous composite molecular sieves with different porous structures were synthesized by tuning nucleation temperature, based on epitaxial growth on the outer surface of the Y-type crystal particle. All composite molecular sieves were characterized by X-ray diffraction (XRD), scanning electron microscope (SEM), and transmission electron microscope (TEM). Moreover, the effect of nucleation temperature on the structure of composite molecular sieves was investigated, while the crystallization mechanism was also explored. Furthermore, the performance of the molecular sieves on isomerization of n-pentane was investigated, the results suggested that the isomerization selectivity was positively correlated with regularity degree of the mesoporous porous structure, where the highest isomerization reached 95.81%. This work suggests that nucleation temperature plays a key role in structures of micro-mesoporous composite molecular sieves, providing a solid basis for the further development of functional composite molecular sieves.
Highlights
Micro-mesoporous composite molecular sieves have been widely used in the petrochemical field, due to the simultaneous presence of a microporous and mesoporous structure
Three core-shell structured microporous-mesoporous composite molecular sieves were synthesized based on the epitaxial growth
They were thoroughly characterized by a range of techniques including scanning electron microscope (SEM), transmission electron microscope (TEM), and X-ray diffraction (XRD), and the results demonstrated that the order of mesoporous regularity of them from good to bad was YST, YSG, and YSV
Summary
Micro-mesoporous composite molecular sieves have been widely used in the petrochemical field, due to the simultaneous presence of a microporous and mesoporous structure. Many studies have been done to investigate the effect of these experimental parameters on the structure of the composite molecular sieves based on the epitaxial method. Our team utilized the cation-exchange effect to grow the template agent on the surface of the Y microporous molecular sieve [10], and investigated the crystallization mechanism of Y/SBA-15 composite molecular sieve. Nucleation stage plays a key role in the porous structure of composite molecular sieves, there were few reports studying the nucleation stage of composite molecular sieves. The prepared molecular sieves displayed microporous and mesoporous structures, which are significantly different from hybrid materials These verify that they are the micro-mesoporous composite molecular sieves. We applied the epitaxial growth to prepare composite molecular sieves, and investigated the effect of temperature on porous structure. Using n-pentane as a template agent, the performance of these composite molecular sieves on hydroisomerization of n-pentane were investigated by a continuous-flow high-pressure microreactor-chromatography apparatus
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