Synthesis of self-pillared zeolite nanosheets by repetitive branching

Xueyi Zhang; Dongxia Liu; Dandan Xu; Shunsuke Asahina; Katie A. Cychosz; Kumar Varoon Agrawal; Yasser Al Wahedi; Aditya Bhan; Saleh Al Hashimi; Osamu Terasaki; Matthias Thommes; Michael Tsapatsis

doi:10.1126/science.1221111

Synthesis of self-pillared zeolite nanosheets by repetitive branching

Xueyi Zhang, Dongxia Liu, Dandan Xu, Shunsuke Asahina, Katie A. Cychosz, Kumar Varoon Agrawal, Yasser Al Wahedi, Aditya Bhan, Saleh Al Hashimi, Osamu Terasaki, Matthias Thommes, Michael Tsapatsis

Chemical Engineering

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

569 Citations (SciVal)

Abstract

Hierarchical zeolites are a class of microporous catalysts and adsorbents that also contain mesopores, which allow for fast transport of bulky molecules and thereby enable improved performance in petrochemical and biomass processing. We used repetitive branching during one-step hydrothermal crystal growth to synthesize a new hierarchical zeolite made of orthogonally connected microporous nanosheets. The nanosheets are 2 nanometers thick and contain a network of 0.5-nanometer micropores. The house-of-cards arrangement of the nanosheets creates a permanent network of 2- to 7-nanometer mesopores, which, along with the high external surface area and reduced micropore diffusion length, account for higher reaction rates for bulky molecules relative to those of other mesoporous and conventional MFI zeolites.

Original language	English (US)
Pages (from-to)	1684-1687
Number of pages	4
Journal	Science
Volume	336
Issue number	6089
DOIs	https://doi.org/10.1126/science.1221111
State	Published - Jun 29 2012

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10.1126/science.1221111

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title = "Synthesis of self-pillared zeolite nanosheets by repetitive branching",

abstract = "Hierarchical zeolites are a class of microporous catalysts and adsorbents that also contain mesopores, which allow for fast transport of bulky molecules and thereby enable improved performance in petrochemical and biomass processing. We used repetitive branching during one-step hydrothermal crystal growth to synthesize a new hierarchical zeolite made of orthogonally connected microporous nanosheets. The nanosheets are 2 nanometers thick and contain a network of 0.5-nanometer micropores. The house-of-cards arrangement of the nanosheets creates a permanent network of 2- to 7-nanometer mesopores, which, along with the high external surface area and reduced micropore diffusion length, account for higher reaction rates for bulky molecules relative to those of other mesoporous and conventional MFI zeolites.",

author = "Xueyi Zhang and Dongxia Liu and Dandan Xu and Shunsuke Asahina and Cychosz, {Katie A.} and Agrawal, {Kumar Varoon} and {Al Wahedi}, Yasser and Aditya Bhan and {Al Hashimi}, Saleh and Osamu Terasaki and Matthias Thommes and Michael Tsapatsis",

year = "2012",

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doi = "10.1126/science.1221111",

language = "English (US)",

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T1 - Synthesis of self-pillared zeolite nanosheets by repetitive branching

AU - Zhang, Xueyi

AU - Liu, Dongxia

AU - Xu, Dandan

AU - Asahina, Shunsuke

AU - Cychosz, Katie A.

AU - Agrawal, Kumar Varoon

AU - Al Wahedi, Yasser

AU - Bhan, Aditya

AU - Al Hashimi, Saleh

AU - Terasaki, Osamu

AU - Thommes, Matthias

AU - Tsapatsis, Michael

PY - 2012/6/29

Y1 - 2012/6/29

N2 - Hierarchical zeolites are a class of microporous catalysts and adsorbents that also contain mesopores, which allow for fast transport of bulky molecules and thereby enable improved performance in petrochemical and biomass processing. We used repetitive branching during one-step hydrothermal crystal growth to synthesize a new hierarchical zeolite made of orthogonally connected microporous nanosheets. The nanosheets are 2 nanometers thick and contain a network of 0.5-nanometer micropores. The house-of-cards arrangement of the nanosheets creates a permanent network of 2- to 7-nanometer mesopores, which, along with the high external surface area and reduced micropore diffusion length, account for higher reaction rates for bulky molecules relative to those of other mesoporous and conventional MFI zeolites.

AB - Hierarchical zeolites are a class of microporous catalysts and adsorbents that also contain mesopores, which allow for fast transport of bulky molecules and thereby enable improved performance in petrochemical and biomass processing. We used repetitive branching during one-step hydrothermal crystal growth to synthesize a new hierarchical zeolite made of orthogonally connected microporous nanosheets. The nanosheets are 2 nanometers thick and contain a network of 0.5-nanometer micropores. The house-of-cards arrangement of the nanosheets creates a permanent network of 2- to 7-nanometer mesopores, which, along with the high external surface area and reduced micropore diffusion length, account for higher reaction rates for bulky molecules relative to those of other mesoporous and conventional MFI zeolites.

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Synthesis of self-pillared zeolite nanosheets by repetitive branching

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