DocumentCode
271460
Title
Ionic selectivity of nystatin A1 confined in nanoporous track-etched polymer membrane
Author
Balme, SeÌbastien ; Thiele, Daniel ; Kraszewski, Sebastian ; Picaud, Fabien ; Janot, Jean-Marc ; DeÌjardin, Philippe
Author_Institution
Inst. Eur. des Membranes, ENSCM, Montpellier, France
Volume
8
Issue
3
fYear
2014
fDate
Sept. 2014
Firstpage
138
Lastpage
142
Abstract
The hybrid biological/polymeric solid-state nanopore membrane offers several opportunities to combine the advantage of biological channel (selectivity) and material (robustness). Based on this technology, the challenge is to obtain selective ionic exchange membranes, with no energy intake. The direct insertion of an ionic channel inside a nanopore should be a promise solution. Here, the authors report a hybrid nanopore based on nystatin A1 confinement in commercial nanopore membrane. Ionic transport and selectivity studies show that the hybrid nanopores exhibit mainly an anionic behaviour, on the contrary to biological conditions. However, the order of magnitude between the different ratios of permeation of several cationic species is retained even if the blocking of divalent cation is not totally proved.
Keywords
bioelectric phenomena; biomedical materials; biomembrane transport; drugs; etching; nanomedicine; nanoporous materials; permeability; polymers; anionic behaviour; biological channel; cationic species; commercial nanopore membrane; direct insertion; divalent cation; hybrid biological-polymeric solid-state nanopore membrane; ionic channel; ionic exchange membrane; ionic selectivity; ionic transport; nanoporous track-etched polymer membrane; nystatin A1 confinement; permeation ratios; selectivity study;
fLanguage
English
Journal_Title
Nanobiotechnology, IET
Publisher
iet
ISSN
1751-8741
Type
jour
DOI
10.1049/iet-nbt.2013.0014
Filename
6869124
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