Zero-current bilayer membrane potential

Amblard, G.; Issaurat, Bernard; d'Epenoux, B.; Gavach, Claude

doi:10.1016/s0022-0728(83)80168-5

Cited by 14 publications

References 19 publications

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Dicumyl peroxide‐modified cellulose/LLDPE composites

Sapieha

Allard

Zang

1990

J of Applied Polymer Sci

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SynopsisThe present study reports results on the processing and mechanical properties of composites modified by the addition of dicumyl peroxide (DCP). The addition of minute amounts of peroxide to the cellulose/polymer system during processing has been show,n to significantly improve the physical properties of composites. SEM micrographs of fracture surfaces of the peroxide modified composites reveal direct grafting of polyethylene onto cellulose fibers. The existence of a critical peroxide concentration indicates that the grafting reactions terminate when cellulose surfaces are no longer accessible. Possible mechanisms involved are discussed.

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Dicumyl peroxide‐modified cellulose/LLDPE composites

Sapieha

Allard

Zang

1990

J of Applied Polymer Sci

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Effect of corona modification on the mechanical properties of polypropylene/cellulose composites

Belgacem

Bataille

Sapieha

1994

J of Applied Polymer Sci

207

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SYNOPSISThe effect of various corona treatment conditions on the mechanical properties of cellulose fibers/polypropylene composites was studied. The cellulose fibers and polypropylene were modified using a wide range of corona treatment levels and concentrations of oxygen. The treatment level of the fibers was evaluated using the electrical conductance of their aqueous suspensions. The mechanical properties of composites obtained from different combinations of treated or untreated cellulose fibers and polypropylene were characterized by tensile stress-strain measurements; they improved substantially when either the cellulose fibers alone or both components were treated, although composites made from untreated cellulose fibers and treated polypropylene showed a relatively small improvement. The results obtained indicate that dispersive forces are mostly responsible for the enhanced adhesion. The relationship between the electrical conductance of the fibers, the mechanical properties, and the mechanism of improved adhesion is discussed.

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Field Effects in Experimental Bilayer Lipid Membranes and Biomembranes

Tien

Zon

1987

Mechanistic Approaches to Interactions of Electric and Electromagnetic Fields With Living Systems

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Zero-current bilayer membrane potential

Cited by 14 publications

References 19 publications

Dicumyl peroxide‐modified cellulose/LLDPE composites

Dicumyl peroxide‐modified cellulose/LLDPE composites

Effect of corona modification on the mechanical properties of polypropylene/cellulose composites

Field Effects in Experimental Bilayer Lipid Membranes and Biomembranes

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