Self‐Pillared Ultramicroporous Carbon Nanoplates for Selective Separation of CH 4 /N 2

There is growing evidence that pillaring up a densely packed ultramicroporous two‐dimensional (2D) structure is an effective strategy to reduce their internal diffusion. Reliable pillaring paradigms, however, is rather challenging. Here we report a one‐pot multi‐component sequential assembly method...

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Published inAngewandte Chemie International Edition Vol. 60; no. 12; pp. 6339 - 6343
Main Authors Xu, Shuang, Li, Wen‐Cui, Wang, Cheng‐Tong, Tang, Lei, Hao, Guang‐Ping, Lu, An‐Hui
Format Journal Article
LanguageEnglish
Published Germany 15.03.2021
Subjects
porous carbon nanomaterials
self-assembly
carbon nanoplates
hierarchical structures
CH4/N2 separation
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ISSN1433-7851
1521-3773
DOI10.1002/anie.202014231

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Abstract There is growing evidence that pillaring up a densely packed ultramicroporous two‐dimensional (2D) structure is an effective strategy to reduce their internal diffusion. Reliable pillaring paradigms, however, is rather challenging. Here we report a one‐pot multi‐component sequential assembly method for the preparation of a new self‐pillared 2D polymer and ultramicroporous carbon with integrated surface protrusions. The molecular level pillaring process is surprisingly fast, that is, in 10 min. The thickness of nanoplate edge and the density (roughness), angle as well as height of protrusions can be precisely tuned. Exemplified in coal bed methane purification/separation, this unique pillared 2D carbons exhibit a CH 4 /N 2 selectivity up to 24 at a low CH 4 partial pressure and two orders of magnitude faster CH 4 diffusion kinetics than the commercial carbon molecular sieves. This solution synthesis methodology is generalizable for creation and fine tuning of pillared 2D heterostructures.
AbstractList There is growing evidence that pillaring up a densely packed ultramicroporous two-dimensional (2D) structure is an effective strategy to reduce their internal diffusion. Reliable pillaring paradigms, however, is rather challenging. Here we report a one-pot multi-component sequential assembly method for the preparation of a new self-pillared 2D polymer and ultramicroporous carbon with integrated surface protrusions. The molecular level pillaring process is surprisingly fast, that is, in 10 min. The thickness of nanoplate edge and the density (roughness), angle as well as height of protrusions can be precisely tuned. Exemplified in coal bed methane purification/separation, this unique pillared 2D carbons exhibit a CH /N selectivity up to 24 at a low CH partial pressure and two orders of magnitude faster CH diffusion kinetics than the commercial carbon molecular sieves. This solution synthesis methodology is generalizable for creation and fine tuning of pillared 2D heterostructures.
There is growing evidence that pillaring up a densely packed ultramicroporous two‐dimensional (2D) structure is an effective strategy to reduce their internal diffusion. Reliable pillaring paradigms, however, is rather challenging. Here we report a one‐pot multi‐component sequential assembly method for the preparation of a new self‐pillared 2D polymer and ultramicroporous carbon with integrated surface protrusions. The molecular level pillaring process is surprisingly fast, that is, in 10 min. The thickness of nanoplate edge and the density (roughness), angle as well as height of protrusions can be precisely tuned. Exemplified in coal bed methane purification/separation, this unique pillared 2D carbons exhibit a CH 4 /N 2 selectivity up to 24 at a low CH 4 partial pressure and two orders of magnitude faster CH 4 diffusion kinetics than the commercial carbon molecular sieves. This solution synthesis methodology is generalizable for creation and fine tuning of pillared 2D heterostructures.
Author Xu, Shuang
Li, Wen‐Cui
Lu, An‐Hui
Tang, Lei
Wang, Cheng‐Tong
Hao, Guang‐Ping
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Keywords porous carbon nanomaterials
self-assembly
carbon nanoplates
hierarchical structures
CH4/N2 separation
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Snippet There is growing evidence that pillaring up a densely packed ultramicroporous two‐dimensional (2D) structure is an effective strategy to reduce their internal...
There is growing evidence that pillaring up a densely packed ultramicroporous two-dimensional (2D) structure is an effective strategy to reduce their internal...
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Title Self‐Pillared Ultramicroporous Carbon Nanoplates for Selective Separation of CH 4 /N 2
URI https://www.ncbi.nlm.nih.gov/pubmed/33331111
Volume 60
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