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Chemical and thermal stability of surface‐modified porous polyethylene membranes

journal contribution
posted on 2004-01-01, 00:00 authored by Wren Greene, R Tannenbaum
In this paper, we describe the surface modification of porous polyethylene by the adsorption of polyelectrolyte mutilayers on plasma‐activated polyethylene surfaces. We use the migration rates of deionized water as an effective alternative to contact angle measurements in order to probe the interfacial energy of the modified surface. The newly acquired surface properties that result from the surface modification are monitored with respect to several key chemical and environmental variables. These variables were chosen so that they will reflect some of the common handling procedures in a laboratory or health care environments, such as exposure to solvents of different pH and polarities, and fluctuations of ambient temperature over an extended period, i.e., “shelf‐life” duration. The stability of these surface properties of the modified membranes is a fundamental requirement for their potential use in a variety of applications involving lateral flow and binding media for bio‐assays. In this paper, we show that a membrane modified by a polyelectrolyte monolayer is more stable than a membrane that has undergone plasma activation alone, while a membrane modified by a polyelectrolyte bilayer exhibits retention of the enhanced surface hydrophilic properties under various conditions and over a long period of time.

History

Journal

Journal of dispersion science and technology

Volume

25

Issue

5

Pagination

609 - 617

Publisher

Taylor & Francis

Location

New York, N. Y.

ISSN

0193-2691

eISSN

1532-2351

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Copyright notice

2004, Marcel Dekker