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Air-Exposure Technique for the Formation of Artificial Lipid Bilayers in Microsystems

Air-Exposure Technique for the Formation of Artificial Lipid Bilayers in Microsystems
Air-Exposure Technique for the Formation of Artificial Lipid Bilayers in Microsystems
To develop a reliable method for on-chip bilayer lipid membrane (BLM) formation, which could be employed for use in a biosensor array platform, a polymer microfluidic device has been constructed, and the formation of suspended BLMs within it has been investigated. A simple, yet reproducible BLM formation protocol has been developed, in which a brief air-exposure period is employed to induce the rapid thinning of an initially thick lipid-solvent layer. The technique is rapid, reproducible, and amenable to the simple injection of proteins or analytes, as well as to buffer exchange on both sides of the membrane. Scaling up the technique for use in an array platform is also straightforward, the simultaneous formation of three individually addressable BLMs being demonstrated.
0743-7463
8277-8284
Sandison, M.E.
fe8a3953-a4d6-4c24-a959-ea6c8ec43aed
Zagnoni, M.
c719a8d2-cd85-4d22-a669-eb0557b3aa95
Morgan, H.
de00d59f-a5a2-48c4-a99a-1d5dd7854174
Sandison, M.E.
fe8a3953-a4d6-4c24-a959-ea6c8ec43aed
Zagnoni, M.
c719a8d2-cd85-4d22-a669-eb0557b3aa95
Morgan, H.
de00d59f-a5a2-48c4-a99a-1d5dd7854174

Sandison, M.E., Zagnoni, M. and Morgan, H. (2007) Air-Exposure Technique for the Formation of Artificial Lipid Bilayers in Microsystems. Langmuir, 23, 8277-8284. (doi:10.1021/la7007528).

Record type: Article

Abstract

To develop a reliable method for on-chip bilayer lipid membrane (BLM) formation, which could be employed for use in a biosensor array platform, a polymer microfluidic device has been constructed, and the formation of suspended BLMs within it has been investigated. A simple, yet reproducible BLM formation protocol has been developed, in which a brief air-exposure period is employed to induce the rapid thinning of an initially thick lipid-solvent layer. The technique is rapid, reproducible, and amenable to the simple injection of proteins or analytes, as well as to buffer exchange on both sides of the membrane. Scaling up the technique for use in an array platform is also straightforward, the simultaneous formation of three individually addressable BLMs being demonstrated.

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More information

Published date: 2007
Organisations: Nanoelectronics and Nanotechnology

Identifiers

Local EPrints ID: 264502
URI: http://eprints.soton.ac.uk/id/eprint/264502
DOI: doi:10.1021/la7007528
ISSN: 0743-7463
PURE UUID: e7abe148-eff2-4e1e-ac12-471fbb5ef5fa
ORCID for H. Morgan: ORCID iD orcid.org/0000-0003-4850-5676

Catalogue record

Date deposited: 14 Sep 2007
Last modified: 15 Mar 2024 03:18

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Contributors

Author: M.E. Sandison
Author: M. Zagnoni
Author: H. Morgan ORCID iD

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