Permeation of water as a tool for characterizing the effect of solvent, film thickness and water solubility in cellulose acetate membranes

Valente, Artur J.M.; Polishchuk, A. Ya.; Burrows, Hugh D.; Lobo, Victor M.M.

doi:10.1016/j.eurpolymj.2004.09.022

Cited by 36 publications

(28 citation statements)

References 19 publications

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“…5 for all the TMCA series membranes. These values obtained were in accordance with the cited literatures [34,35], which was approximately 230 8C. It was observed that the melting point for the TMCA series membranes depend solely on CA and not MSG (although MSG was present in the dope solution and has T m of 232 8C).…”

Section: Separation Performancesupporting

confidence: 93%

Modification of cellulose acetate membrane using monosodium glutamate additives prepared by microwave heating

Kee

Idris

2012

Journal of Industrial and Engineering Chemistry

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Section: Separation Performancesupporting

confidence: 93%

Modification of cellulose acetate membrane using monosodium glutamate additives prepared by microwave heating

Kee

Idris

2012

Journal of Industrial and Engineering Chemistry

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“…The decrease in the diffusion coefficient with the moisture content increase was also observed for a methylcellulose film or a cellulose acetate membrane, the decrease occurring from 3% (in d.b.) and 2% moisture content respectively, what is close to our values Valente, Polishchuk, Burrows, & Lobo, 2005). The shape of the curve could be explained by the mechanism of water migration in porous moist solids (Aguerre & Suarez, 2004).…”

Section: Kinetic (Diffusivity) Mechanism Of Water Vapour Transfer Thrsupporting

confidence: 84%

Water barrier properties of treated-papers and application to sponge cake storage

Dury-Brun

Jury

Guillard

et al. 2006

Food Research International

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“…2 shows, as example, the infrared spectra of B1 and B4 films. In addition to the characteristic cellulose acetate bands at 1748, 1234 and 1046 cm À1 [25], new bands are observed at 1578 (C@C aromatic ), 2887 (C-H aliphatic ) and 3440 (N-H) cm À1 . These bands are indicative of the CP incorporation to cellulose acetate matrix.…”

Section: Film Characterizationmentioning

confidence: 92%

Transport of solutes through calix[4]pyrrole-containing cellulose acetate films

Valente

Jiménez

Simões

et al. 2007

European Polymer Journal

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Films of cellulose acetate containing different concentrations of meso-octamethyl-porphyrinogen (calix[4]pyrrole) were prepared and characterized using UV-vis and FTIR spectroscopy, DSC and SEM. Incorporation of calix[4]pyrrole into cellulose acetate leads to a decrease in the degree of hydrophilicity of the polymeric matrix. However, a slight increase in the percentage of water uptake of the polymer is found with an increase of the initial amount of calix [4]pyrrole in the composite composition. This effect can be related to the plasticizing effect that the calix[4]pyrrole provokes in the cellulose acetate. A comparative study of transport parameters of oxygen and some non-associated electrolytes (sodium, copper(II) and nickel chlorides) was carried out. The diffusion coefficients of molecular oxygen through cellulose acetate films decrease with an increase of the concentration of calix [4]pyrrole in the composite films. The transport (diffusion and permeation) of the above mentioned electrolytes through a set of composite films shows a decrease of permeability and diffusion coefficients with an increase of calix[4]pyrrole concentration. Such behaviour is typical of systems where interactions between the polymer and diffusing species occur. However, from the analysis of the distribution coefficient, it was found that those interactions are only dependent on the calix[4]pyrrole content for 2:1 electrolytes.

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Permeation of water as a tool for characterizing the effect of solvent, film thickness and water solubility in cellulose acetate membranes

Cited by 36 publications

References 19 publications

Modification of cellulose acetate membrane using monosodium glutamate additives prepared by microwave heating

Modification of cellulose acetate membrane using monosodium glutamate additives prepared by microwave heating

Water barrier properties of treated-papers and application to sponge cake storage

Transport of solutes through calix[4]pyrrole-containing cellulose acetate films

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