Publications by authors named "Shu-Tao Xu"
Diffusion is an extremely critical step in zeolite catalysis that determines the catalytic performance, in particular for the conversion of bulky molecules. Introducing interconnected mesopores and macropores into a single microporous zeolite with the rationalized pore size at each level is an effective strategy to suppress the diffusion limitations, but remains highly challenging due to the lack of rational design principles. Herein, we demonstrate the first example of boosting molecular diffusion by constructing hierarchical Murray zeolites with a highly ordered and fully interconnected macro-meso-microporous structure on the basis of the generalized Murray's Law.
View Article and Find Full Text PDFArticle Synopsis
- Researchers created a unique porous material with three types of pores (micro, meso, and macro) using Zr-doped silicalite-1 nanocrystals and glycerin as a reaction medium.
- The structure and properties of this material were analyzed using various spectroscopy techniques, indicating strong acidity and good interconnectivity between the pores for efficient molecular diffusion.
- The resulting product features well-defined macrochannels and mesopores that enhance its catalytic activity, making it useful for applications like cracking isopropylbenzene.