Scott Matteucci scite author profile

Magnesium oxide nanoparticles (3 nm) were dispersed in 1,2-polybutadiene via solution casting. Particles were observed to be dispersed into submicron aggregates using atomic force microscopy and transmission electron microscopy. The nanocomposite density was consistently lower than that anticipated on the basis of an additive model, suggesting the presence of voids in the nanocomposites. The incorporation of nanoparticles into 1,2-polybutadiene increased acid gas (i.e., CO2) and nonpolar gas (i.e., CH4, N2) permeability with increasing particle loading. For instance, CO2 permeability increased from 52 barrer in the unfilled polymer to 650 barrer in a nanocomposite containing 27 vol % (nominal) MgO, at 35 °C and a feed pressure of 12 atm. CO2/nonpolar gas selectivity decreased with increasing particle loading, while CH4/N2 selectivity was not influenced by the particles. Gas solubility increased systematically with increasing particle loading. In contrast, gas diffusion coefficients initially decreased with increasing particle loading and then increased with increasing loading at particle loadings greater than 10 vol % (nominal).

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Scott Matteucci

Transport of Gases and Vapors in Glassy and Rubbery Polymers

Gas transport in TiO2 nanoparticle-filled poly(1-trimethylsilyl-1-propyne)

Gas transport properties of MgO filled poly(1-trimethylsilyl-1-propyne) nanocomposites

Gas permeability, solubility and diffusivity in 1,2-polybutadiene containing brookite nanoparticles

Gas Permeability, Solubility, and Diffusion Coefficients in 1,2-Polybutadiene Containing Magnesium Oxide

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