R. T. Chern scite author profile

The gas permeability, diffusivity, and solubility of a series of polysulfones bearing basic aryl substituents were determined at 35 °C and pressures up to 20 atm. Gas permeability and diffusivity values of the aryl-substituted polysulfones were markedly lower than those of unmodified polysulfone. These effects were ascribed to decreased fractional free volume and increased restriction to sub-T g torsional motion in the substituted polymers. Polysulfone bearing benzylic amine substituents exhibited higher CO2 solubility and CO2/CH4 solubility selectivity than polysulfone, presumably due to favorable interactions between acidic CO2 molecules and basic −CH2-NH2 groups. CO2 diffusivity in polysulfone bearing benzylic amine substituents is lower than expected based on free volume considerations, suggesting that interactions between CO2 and benzylic amine moieties may be strong enough to impede CO2 mobility in the modified polymer. These results are consistent with infrared spectroscopy data which suggest that the benzylic amino groups undergo reversible reaction with CO2 to form carbamate moieties.

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A model for permeation of mixed gases and vapors in glassy polymers

Koros

Chern

Stannett

et al. 1981

J. Polym. Sci. Polym. Phys. Ed.

202

115

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A model is discussed which explains reported complex effects of feed composition and pressure on component permeabilities in high‐pressure gas separators based on glassy polymer membranes. A special form of Fick's law which accounts for the fact that penetrants in glassy polymers sorb into and diffuse through two different molecular environments provides the basis for the analysis of gas mixture permeation. Potential deviations from the theory are discussed in terms of separable solubility‐and mobility‐related effects.

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“Second component” effects in sorption and permeation of gases in glassy polymers

Chern

Koros

Sanders

et al. 1983

Journal of Membrane Science

128

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Gas separation properties of aromatic polyamides containing hexafluoroisopropylidene groups

Morisato

Ghosal

Freeman

et al. 1995

Journal of Membrane Science

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Experimental study of wet granulation in fluidized bed: Impact of the binder properties on the granule morphology

Rajniak¹,

Mancinelli²,

Chern³

et al. 2007

International Journal of Pharmaceutics

133

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R. T. Chern

Effect of Basic Substituents on Gas Sorption and Permeation in Polysulfone

A model for permeation of mixed gases and vapors in glassy polymers

“Second component” effects in sorption and permeation of gases in glassy polymers

Gas separation properties of aromatic polyamides containing hexafluoroisopropylidene groups

Experimental study of wet granulation in fluidized bed: Impact of the binder properties on the granule morphology

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