Activated carbon templated synthesis of hierarchical zeolite Y-encapsulated iron catalysts for enhanced gasoline selectivity in CO hydrogenation

Activated carbon templated synthesis of hierarchical zeolite Y-encapsulated iron catalysts for enhanced gasoline selectivity in CO hydrogenation

Fischer-Tropsch synthesis (FTS) remains a technology of the future for the sustainable production of hydrocarbon fuels. To date, controlling the hydrocarbon selectivity is still a major challenge since the product distribution follows the Anderson-Schulz-Flory (ASF) model, which suggests a maximum g...

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Veröffentlicht in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2021-01, Vol.9 (13), p.8663-8673
Hauptverfasser: Liu, Heyang, Fu, Yajie, Li, Mingquan, Wang, Jiayuan, Noreen, Aqsa, Maturura, Elton, Gao, Xinhua, Yang, Ruiqin, Amoo, Cederick Cyril, Xing, Chuang
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Sprache:eng
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Acidity
Activated carbon
Catalysts
Chemical synthesis
Coupling
Crystallization
Crystals
Encapsulation
Fischer-Tropsch process
Gasoline
Hydrocarbon fuels
Hydrocarbons
Iron
Nanoparticles
Porosity
Selectivity
Zeolites
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container_issue 13
container_start_page 8663
container_title Journal of materials chemistry. A, Materials for energy and sustainability
container_volume 9
creator Liu, Heyang
Fu, Yajie
Li, Mingquan
Wang, Jiayuan
Noreen, Aqsa
Maturura, Elton
Gao, Xinhua
Yang, Ruiqin
Amoo, Cederick Cyril
Xing, Chuang
description Fischer-Tropsch synthesis (FTS) remains a technology of the future for the sustainable production of hydrocarbon fuels. To date, controlling the hydrocarbon selectivity is still a major challenge since the product distribution follows the Anderson-Schulz-Flory (ASF) model, which suggests a maximum gasoline selectivity of ∼48%. In this work, we report the characteristics of zeolite Y-encapsulated iron catalysts whose FTS activity deviates from the ASF model with an enhanced gasoline selectivity of up to 65.7%. The catalysts were synthesized by a low-cost crystallization procedure using activated carbon (AC) as a sacrificial template. The AC template enhanced the dispersion of the Fe nanoparticles and porosity of the catalysts while ensuring effective fixation of the Fe nanoparticles within the zeolite Y crystals. The final catalysts further demonstrated moderate acidity dominated by Lewis acids and a high surface area, with Fe facets which easily convert to high spin Fe 5 C 2 (510). These properties collaboratively enhanced C-C coupling for direct C 5-11 hydrocarbon synthesis in FTS. The discussions from this work reveal and confirm preliminary relationships that exist between the phases of Fe-based FTS catalysts and their influence on C-C coupling in FTS reactions. Activated carbon is employed as a Sacrificial template to synthesize zeolite Y encapsulated Fe catalysts for gasoline production in FTS.
doi_str_mv 10.1039/d0ta12423k
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source Royal Society Of Chemistry Journals 2008-
subjects Acidity
Activated carbon
Catalysts
Chemical synthesis
Coupling
Crystallization
Crystals
Encapsulation
Fischer-Tropsch process
Gasoline
Hydrocarbon fuels
Hydrocarbons
Iron
Nanoparticles
Porosity
Selectivity
Zeolites
title Activated carbon templated synthesis of hierarchical zeolite Y-encapsulated iron catalysts for enhanced gasoline selectivity in CO hydrogenation
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