J.Y. Dolveck scite author profile

J.Y. Dolveck

3Publications

40Citation Statements Received

0Citation Statements Given

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Affiliations

Biomatériaux et Bioingénierie, Claude Bernard University Lyon 1, French National Centre for Scientific Research

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Ion beam irradiation effect on gas permeation properties of polyimide films

Dolveck

Boiteux

et al. 1995

J of Applied Polymer Sci

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SYNOPSISThis study deals with the ion beam irradiation effect on gas permeation properties of polyimide films. 2 MeV a, 500 keV, and 170 keV N+ ions were used for modifying the membranes. It was found that there are two different effects according to the implantation dose. In the case of small-dose irradiation, ion implantation causes a raise of permeability both for CHI and HP. When the implantation dose reaches a more important level, the implanted membranes have at the same time high permselectivity for H,/CH, and high permeability for Ha. The relationships between the permeation properties and microstructure of the films are also discussed. 0

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A New Approach To Microporous Materials — Application Of Ion Beam Technology To Polyimides Membrane

Dolveck

Boiteux

et al. 1994

MRS Proc.

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Recently engineered porous materials have been attracted more attentions because of their potential applications in several industrial sectors, such as high efficiency gas separation membrane, catalytic membranes for chemical processing and so on. In spite of their desirable applications, these porous materials have not been realized due to several technical barriers, for example, lack of pore size control. There is a general viewpoint that for conventional gas separation membranes one cannot increase both permeability and permselectivity of the product gas simultaneously. This general viewpoint implies that the conventional methods of gas separation membrane fabrication cannot precisely control the pore size. In this work iodine diffusion property and gas permeation properties of ion beam irradiated polyimides films have been investigated. Small fluence irradiation can raise significantly the iodine penetration in the energy deposition range and permeabilities of the films both for H2 and CH4. After higher fluence irradiation, the implanted layers become stopping layers blocking iodine diffusion into the film and both the permeability for H2 and permselectivity for (H2/CH4) of the film increase hugely. We related the small fluence effects to defects created by irradiation and higher dose effects to the new materials formation of which the pore size is well defined. From these results we can perhaps have a peep at a new way to microporous materials.

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Free Volume Measurements in Polyimides by Positronium Annihilation

Dolveck¹,

Dai²,

Moser³

et al. 1992

MSF

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J.Y. Dolveck

Ion beam irradiation effect on gas permeation properties of polyimide films

A New Approach To Microporous Materials — Application Of Ion Beam Technology To Polyimides Membrane

Free Volume Measurements in Polyimides by Positronium Annihilation

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