Selectivity descriptors of the catalytic n-hexane cracking process over 10-membered ring zeolites

Pandong Ma; Hexun Zhou; Yubing Li; Mengheng Wang; Stefan Adrian F. Nastase; Mengsi Zhu; Jiale Cui; Luigi Cavallo; Kang Cheng; Abhishek Dutta Chowdhury

doi:10.1039/d4sc00603h

Selectivity descriptors of the catalytic n-hexane cracking process over 10-membered ring zeolites

Pandong Ma, Hexun Zhou, Yubing Li, Mengheng Wang, Stefan Adrian F. Nastase, Mengsi Zhu, Jiale Cui, Luigi Cavallo, Kang Cheng^*, Abhishek Dutta Chowdhury^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Zeolite-mediated catalytic cracking of alkanes is pivotal in the petrochemical and refining industry, breaking down heavier hydrocarbon feedstocks into fuels and chemicals. Its relevance also extends to emerging technologies such as biomass and plastic valorization. Zeolite catalysts, with shape selectivity and selective adsorption capabilities, enhance efficiency and sustainability due to their well-defined network of pores, dimensionality, cages/cavities, and channels. This study focuses on the alkane cracking over 10-membered ring (10-MR) zeolites under industrially relevant conditions. Through a series of characterizations, including operando UV-vis spectroscopy and solid-state NMR spectroscopy, we intend to address mechanistic debates about the alkane cracking mechanism, aiming to understand the dependence of product selectivity on zeolite topologies. The findings highlight topology-dependent mechanisms, particularly the role of intersectional void spaces in zeolite ZSM-5, influencing aromatic-based product selectivity. This work provides a unique understanding of zeolite-catalyzed hydrocarbon conversion, linking alkane activation steps to the traditional hydrocarbon pool mechanism, contributing to the fundamental knowledge of this crucial industrial process.

Original language	English (US)
Pages (from-to)	11937-11945
Number of pages	9
Journal	Chemical Science
Volume	15
Issue number	30
DOIs	https://doi.org/10.1039/d4sc00603h
State	Published - Jun 24 2024

ASJC Scopus subject areas

General Chemistry

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title = "Selectivity descriptors of the catalytic n-hexane cracking process over 10-membered ring zeolites",

abstract = "Zeolite-mediated catalytic cracking of alkanes is pivotal in the petrochemical and refining industry, breaking down heavier hydrocarbon feedstocks into fuels and chemicals. Its relevance also extends to emerging technologies such as biomass and plastic valorization. Zeolite catalysts, with shape selectivity and selective adsorption capabilities, enhance efficiency and sustainability due to their well-defined network of pores, dimensionality, cages/cavities, and channels. This study focuses on the alkane cracking over 10-membered ring (10-MR) zeolites under industrially relevant conditions. Through a series of characterizations, including operando UV-vis spectroscopy and solid-state NMR spectroscopy, we intend to address mechanistic debates about the alkane cracking mechanism, aiming to understand the dependence of product selectivity on zeolite topologies. The findings highlight topology-dependent mechanisms, particularly the role of intersectional void spaces in zeolite ZSM-5, influencing aromatic-based product selectivity. This work provides a unique understanding of zeolite-catalyzed hydrocarbon conversion, linking alkane activation steps to the traditional hydrocarbon pool mechanism, contributing to the fundamental knowledge of this crucial industrial process.",

author = "Pandong Ma and Hexun Zhou and Yubing Li and Mengheng Wang and Nastase, {Stefan Adrian F.} and Mengsi Zhu and Jiale Cui and Luigi Cavallo and Kang Cheng and {Dutta Chowdhury}, Abhishek",

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language = "English (US)",

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T1 - Selectivity descriptors of the catalytic n-hexane cracking process over 10-membered ring zeolites

AU - Ma, Pandong

AU - Zhou, Hexun

AU - Li, Yubing

AU - Wang, Mengheng

AU - Nastase, Stefan Adrian F.

AU - Zhu, Mengsi

AU - Cui, Jiale

AU - Cavallo, Luigi

AU - Cheng, Kang

AU - Dutta Chowdhury, Abhishek

PY - 2024/6/24

Y1 - 2024/6/24

N2 - Zeolite-mediated catalytic cracking of alkanes is pivotal in the petrochemical and refining industry, breaking down heavier hydrocarbon feedstocks into fuels and chemicals. Its relevance also extends to emerging technologies such as biomass and plastic valorization. Zeolite catalysts, with shape selectivity and selective adsorption capabilities, enhance efficiency and sustainability due to their well-defined network of pores, dimensionality, cages/cavities, and channels. This study focuses on the alkane cracking over 10-membered ring (10-MR) zeolites under industrially relevant conditions. Through a series of characterizations, including operando UV-vis spectroscopy and solid-state NMR spectroscopy, we intend to address mechanistic debates about the alkane cracking mechanism, aiming to understand the dependence of product selectivity on zeolite topologies. The findings highlight topology-dependent mechanisms, particularly the role of intersectional void spaces in zeolite ZSM-5, influencing aromatic-based product selectivity. This work provides a unique understanding of zeolite-catalyzed hydrocarbon conversion, linking alkane activation steps to the traditional hydrocarbon pool mechanism, contributing to the fundamental knowledge of this crucial industrial process.

AB - Zeolite-mediated catalytic cracking of alkanes is pivotal in the petrochemical and refining industry, breaking down heavier hydrocarbon feedstocks into fuels and chemicals. Its relevance also extends to emerging technologies such as biomass and plastic valorization. Zeolite catalysts, with shape selectivity and selective adsorption capabilities, enhance efficiency and sustainability due to their well-defined network of pores, dimensionality, cages/cavities, and channels. This study focuses on the alkane cracking over 10-membered ring (10-MR) zeolites under industrially relevant conditions. Through a series of characterizations, including operando UV-vis spectroscopy and solid-state NMR spectroscopy, we intend to address mechanistic debates about the alkane cracking mechanism, aiming to understand the dependence of product selectivity on zeolite topologies. The findings highlight topology-dependent mechanisms, particularly the role of intersectional void spaces in zeolite ZSM-5, influencing aromatic-based product selectivity. This work provides a unique understanding of zeolite-catalyzed hydrocarbon conversion, linking alkane activation steps to the traditional hydrocarbon pool mechanism, contributing to the fundamental knowledge of this crucial industrial process.

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DO - 10.1039/d4sc00603h

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AN - SCOPUS:85197472520

SN - 2041-6520

VL - 15

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EP - 11945

JO - Chemical Science

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ER -

Selectivity descriptors of the catalytic n-hexane cracking process over 10-membered ring zeolites

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