High-performance membranes from polyimides with intrinsic microporosity

Bader S. Ghanem; Neil B. McKeown; Peter M. Budd; James D. Selbie; Detlev Fritsch

doi:10.1002/adma.200702400

High-performance membranes from polyimides with intrinsic microporosity

Bader S. Ghanem, Neil B. McKeown, Peter M. Budd, James D. Selbie, Detlev Fritsch

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

Abstract

The synthesis of three high-performance polyimides membranes using a bis(carboxylic anhydride), derived from monomer with intrinsic microporosity, was described. The adsorption isotherms show high uptake at very low relative pressure, as is characteristic of a microporous material. It is noted that the rate of nitrogen uptake at 77K is slow for polymer materials such as that of PIM-PI-3. The solution-diffusion model of polymer membranes show that the selectivity may be expressed in terms of the solubility and diffusion coefficients for each components. The effect of the high solubility coefficients pf glassy polymers is to enhance gas permeability without loss of selectivity. The high solubility coefficients of polymers is attributed to a combination of microporous character, which enhances uptake.

Original language	English
Pages (from-to)	2766-2771
Number of pages	5
Journal	Advanced Materials
Volume	20
Issue number	14
DOIs	https://doi.org/10.1002/adma.200702400
Publication status	Published - 17 Jul 2008

Keywords

Polyimides Role: PRP (Properties), SPN (Synthetic preparation), TEM (Technical or engineered material use), PREP (Preparation), USES (Uses) (cardo
high-performance membranes from polyimides with intrinsic microporosity)
Permeability (gas
Membranes (high-performance membranes from polyimides with intrinsic microporosity)
Porosity (microporosity
Cardo polymers Role: PRP (Properties), SPN (Synthetic preparation), TEM (Technical or engineered material use), PREP (Preparation), USES (Uses) (polyimides
membrane microporous polyimide

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title = "High-performance membranes from polyimides with intrinsic microporosity",

abstract = "The synthesis of three high-performance polyimides membranes using a bis(carboxylic anhydride), derived from monomer with intrinsic microporosity, was described. The adsorption isotherms show high uptake at very low relative pressure, as is characteristic of a microporous material. It is noted that the rate of nitrogen uptake at 77K is slow for polymer materials such as that of PIM-PI-3. The solution-diffusion model of polymer membranes show that the selectivity may be expressed in terms of the solubility and diffusion coefficients for each components. The effect of the high solubility coefficients pf glassy polymers is to enhance gas permeability without loss of selectivity. The high solubility coefficients of polymers is attributed to a combination of microporous character, which enhances uptake.",

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author = "Ghanem, {Bader S.} and McKeown, {Neil B.} and Budd, {Peter M.} and Selbie, {James D.} and Detlev Fritsch",

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AU - Ghanem, Bader S.

AU - McKeown, Neil B.

AU - Budd, Peter M.

AU - Selbie, James D.

AU - Fritsch, Detlev

N1 - CAN 149:403152 38-3

PY - 2008/7/17

Y1 - 2008/7/17

N2 - The synthesis of three high-performance polyimides membranes using a bis(carboxylic anhydride), derived from monomer with intrinsic microporosity, was described. The adsorption isotherms show high uptake at very low relative pressure, as is characteristic of a microporous material. It is noted that the rate of nitrogen uptake at 77K is slow for polymer materials such as that of PIM-PI-3. The solution-diffusion model of polymer membranes show that the selectivity may be expressed in terms of the solubility and diffusion coefficients for each components. The effect of the high solubility coefficients pf glassy polymers is to enhance gas permeability without loss of selectivity. The high solubility coefficients of polymers is attributed to a combination of microporous character, which enhances uptake.

AB - The synthesis of three high-performance polyimides membranes using a bis(carboxylic anhydride), derived from monomer with intrinsic microporosity, was described. The adsorption isotherms show high uptake at very low relative pressure, as is characteristic of a microporous material. It is noted that the rate of nitrogen uptake at 77K is slow for polymer materials such as that of PIM-PI-3. The solution-diffusion model of polymer membranes show that the selectivity may be expressed in terms of the solubility and diffusion coefficients for each components. The effect of the high solubility coefficients pf glassy polymers is to enhance gas permeability without loss of selectivity. The high solubility coefficients of polymers is attributed to a combination of microporous character, which enhances uptake.

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KW - Permeability (gas

KW - Membranes (high-performance membranes from polyimides with intrinsic microporosity)

KW - Porosity (microporosity

KW - Cardo polymers Role: PRP (Properties), SPN (Synthetic preparation), TEM (Technical or engineered material use), PREP (Preparation), USES (Uses) (polyimides

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JO - Advanced Materials

JF - Advanced Materials

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High-performance membranes from polyimides with intrinsic microporosity

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Keywords

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