Synergistic construction of bifunctional and stable Pt/HZSM-5-based catalysts for efficient catalytic cracking of: N -butane

Huaqian Sun, Yaoyuan Zhang, Yuming Li, Weiyu Song, Qing Huan, Junling Lu, Yang Gao, Shanlei Han, Manglai Gao, Yingjie Ma, Hongjian Yu, Yajun Wang, Guoqing Cui, Zhen Zhao, Chunming Xu, Guiyuan Jiang*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

16 Citations (Scopus)

Abstract

Efficient conversion of light alkanes is of essential significance for enhancing the utilization efficiency of resources and exploring the activation and evolution regulation of C-C and C-H bonds in stable molecules. The processes are often executed with catalysts under harsh conditions. The olefin yield and metal stability have been the long-standing concerns. Herein, we report a facile strategy of constructing a bifunctional Pt/HZSM-5-based catalyst by two-step atomic layer deposition (ALD) to achieve a high light olefin formation rate of 0.48 mmol gcat-1·min-1 in the catalytic cracking of n-butane at 600 °C, which is ∼2.2 times higher than that of the conventional Pt/HZSM-5 catalyst (0.22 mmol gcat-1·min-1). Moreover, the bifunctional Pt/HZSM-5-based catalyst exhibited outstanding recyclability and excellent metal stability against sintering in comparison with conventional Pt/HZSM-5. Detailed microscopic and spectroscopic characterization studies demonstrate that the metal oxide (TiO2 or Al2O3) coating not only prevents the metal from high-temperature sintering, but also regulates the proportion of coordinately unsaturated platinum surface atoms. Theoretical calculations further confirm the preference of nucleation of TiO2 or Al2O3 on coordinately unsaturated platinum sites, which in turn modulates the bifunctional dehydrogenation-cracking pathway to improve the olefin formation rate.

Original languageEnglish
Pages (from-to)5103-5114
Number of pages12
JournalNanoscale
Volume13
Issue number9
DOIs
Publication statusPublished - 7 Mar 2021
Externally publishedYes

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