Ultrathin, Molecular-Sieving Graphene Oxide Membranes for Selective Hydrogen Separation

Hang Li; Zhuonan Song; Xiaojie Zhang; Yi Huang; Shiguang Li; Yating Mao; Harry J. Ploehn; Yu Bao; Miao Yu

doi:10.1126/science.1236686

Ultrathin, Molecular-Sieving Graphene Oxide Membranes for Selective Hydrogen Separation

Hang Li, Zhuonan Song, Xiaojie Zhang, Yi Huang, Shiguang Li, Yating Mao, Harry J. Ploehn, Yu Bao, Miao Yu^*

^*Corresponding author for this work

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

Abstract

Ultrathin, molecular-sieving membranes have great potential to realize high-flux, high-selectivity mixture separation at low energy cost. Current microporous membranes [pore size <1 nanometer (nm)], however, are usually relatively thick. With the use of current membrane materials and techniques, it is difficult to prepare microporous membranes thinner than 20 nm without introducing extra defects. Here, we report ultrathin graphene oxide (GO) membranes, with thickness approaching 1.8 nm, prepared by a facile filtration process. These membranes showed mixture separation selectivities as high as 3400 and 900 for H-2/CO2 and H-2/N-2 mixtures, respectively, through selective structural defects on GO.

Original language	English
Pages (from-to)	95-98
Number of pages	4
Journal	Science
Volume	342
Issue number	6154
DOIs	https://doi.org/10.1126/science.1236686
Publication status	Published - 4 Oct 2013
Externally published	Yes

Keywords

GAS SEPARATION
ZEOLITE MEMBRANES
POROUS GRAPHENE
SILICA MEMBRANES
HIGH-FLUX
PERMEATION
PERMEABILITY
H-2

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title = "Ultrathin, Molecular-Sieving Graphene Oxide Membranes for Selective Hydrogen Separation",

abstract = "Ultrathin, molecular-sieving membranes have great potential to realize high-flux, high-selectivity mixture separation at low energy cost. Current microporous membranes [pore size <1 nanometer (nm)], however, are usually relatively thick. With the use of current membrane materials and techniques, it is difficult to prepare microporous membranes thinner than 20 nm without introducing extra defects. Here, we report ultrathin graphene oxide (GO) membranes, with thickness approaching 1.8 nm, prepared by a facile filtration process. These membranes showed mixture separation selectivities as high as 3400 and 900 for H-2/CO2 and H-2/N-2 mixtures, respectively, through selective structural defects on GO.",

keywords = "GAS SEPARATION, ZEOLITE MEMBRANES, POROUS GRAPHENE, SILICA MEMBRANES, HIGH-FLUX, PERMEATION, PERMEABILITY, H-2",

author = "Hang Li and Zhuonan Song and Xiaojie Zhang and Yi Huang and Shiguang Li and Yating Mao and Ploehn, {Harry J.} and Yu Bao and Miao Yu",

year = "2013",

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doi = "10.1126/science.1236686",

language = "English",

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T1 - Ultrathin, Molecular-Sieving Graphene Oxide Membranes for Selective Hydrogen Separation

AU - Li, Hang

AU - Song, Zhuonan

AU - Zhang, Xiaojie

AU - Huang, Yi

AU - Li, Shiguang

AU - Mao, Yating

AU - Ploehn, Harry J.

AU - Bao, Yu

AU - Yu, Miao

PY - 2013/10/4

Y1 - 2013/10/4

N2 - Ultrathin, molecular-sieving membranes have great potential to realize high-flux, high-selectivity mixture separation at low energy cost. Current microporous membranes [pore size <1 nanometer (nm)], however, are usually relatively thick. With the use of current membrane materials and techniques, it is difficult to prepare microporous membranes thinner than 20 nm without introducing extra defects. Here, we report ultrathin graphene oxide (GO) membranes, with thickness approaching 1.8 nm, prepared by a facile filtration process. These membranes showed mixture separation selectivities as high as 3400 and 900 for H-2/CO2 and H-2/N-2 mixtures, respectively, through selective structural defects on GO.

AB - Ultrathin, molecular-sieving membranes have great potential to realize high-flux, high-selectivity mixture separation at low energy cost. Current microporous membranes [pore size <1 nanometer (nm)], however, are usually relatively thick. With the use of current membrane materials and techniques, it is difficult to prepare microporous membranes thinner than 20 nm without introducing extra defects. Here, we report ultrathin graphene oxide (GO) membranes, with thickness approaching 1.8 nm, prepared by a facile filtration process. These membranes showed mixture separation selectivities as high as 3400 and 900 for H-2/CO2 and H-2/N-2 mixtures, respectively, through selective structural defects on GO.

KW - GAS SEPARATION

KW - ZEOLITE MEMBRANES

KW - POROUS GRAPHENE

KW - SILICA MEMBRANES

KW - HIGH-FLUX

KW - PERMEATION

KW - PERMEABILITY

KW - H-2

U2 - 10.1126/science.1236686

DO - 10.1126/science.1236686

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JO - Science

JF - Science

SN - 0036-8075

IS - 6154

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Ultrathin, Molecular-Sieving Graphene Oxide Membranes for Selective Hydrogen Separation

Abstract

Keywords

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