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Literature DB >> 27877335

Field-effect detection using phospholipid membranes.

Abstract

The application of field-effect devices to biosensors has become an area of intense research interest. An attractive feature of field-effect sensing is that the binding or reaction of biomolecules can be directly detected from a change in electrical signals. The integration of such field-effect devices into cell membrane mimics may lead to the development of biosensors useful in clinical and biotechnological applications. This review summarizes recent studies on the fabrication and characterization of field-effect devices incorporating model membranes. The incorporation of black lipid membranes and supported lipid monolayers and bilayers into semiconductor devices is described.

Entities: Chemical

Keywords: black lipid membranes; field-effect devices; supported lipid bilayers; supported lipid monolayers

Year: 2010 PMID： 27877335 PMCID： PMC5074296 DOI： 10.1088/1468-6996/11/3/033001

Source DB: PubMed Journal: Sci Technol Adv Mater ISSN： 1468-6996 Impact factor: 8.090

59 in total

1. Nanowire nanosensors for highly sensitive and selective detection of biological and chemical species.

Authors: Y Cui; Q Wei; H Park; C M Lieber
Journal: Science Date: 2001-08-17 Impact factor: 47.728

2. Noncovalent functionalization of carbon nanotubes for highly specific electronic biosensors.

Authors: Robert J Chen; Sarunya Bangsaruntip; Katerina A Drouvalakis; Nadine Wong Shi Kam; Moonsub Shim; Yiming Li; Woong Kim; Paul J Utz; Hongjie Dai
Journal: Proc Natl Acad Sci U S A Date: 2003-04-15 Impact factor: 11.205

3. In situ fabrication of three-dimensional chemical patterns in fused silica separation capillaries with polymerized phospholipids.

Authors: Eric E Ross; Elisabeth Mansfield; Yiding Huang; Craig A Aspinwall
Journal: J Am Chem Soc Date: 2005-12-07 Impact factor: 15.419

4. Separation of membrane-bound compounds by solid-supported bilayer electrophoresis.

Authors: Susan Daniel; Arnaldo J Diaz; Kelly M Martinez; Bennie J Bench; Fernando Albertorio; Paul S Cremer
Journal: J Am Chem Soc Date: 2007-06-12 Impact factor: 15.419

5. Electric field-induced concentration gradients in planar supported bilayers.

Authors: J T Groves; S G Boxer
Journal: Biophys J Date: 1995-11 Impact factor: 4.033

6. Micropatterning fluid lipid bilayers on solid supports.

Authors: J T Groves; N Ulman; S G Boxer
Journal: Science Date: 1997-01-31 Impact factor: 47.728

7. Polymer-cushioned bilayers. I. A structural study of various preparation methods using neutron reflectometry.

Authors: J Y Wong; J Majewski; M Seitz; C K Park; J N Israelachvili; G S Smith
Journal: Biophys J Date: 1999-09 Impact factor: 4.033

8. Effects of lactose permease on the phospholipid environment in which it is reconstituted: a fluorescence and atomic force microscopy study.

Authors: Sandra Merino; Oscar Domènech; M Viñas; M Teresa Montero; Jordi Hernández-Borrell
Journal: Langmuir Date: 2005-05-10 Impact factor: 3.882

Field-effect detection using phospholipid membranes.

1. Nanowire nanosensors for highly sensitive and selective detection of biological and chemical species.

2. Noncovalent functionalization of carbon nanotubes for highly specific electronic biosensors.

3. In situ fabrication of three-dimensional chemical patterns in fused silica separation capillaries with polymerized phospholipids.

4. Separation of membrane-bound compounds by solid-supported bilayer electrophoresis.

5. Electric field-induced concentration gradients in planar supported bilayers.

6. Micropatterning fluid lipid bilayers on solid supports.

7. Polymer-cushioned bilayers. I. A structural study of various preparation methods using neutron reflectometry.

8. Effects of lactose permease on the phospholipid environment in which it is reconstituted: a fluorescence and atomic force microscopy study.

9. Supported lipid bilayer/carbon nanotube hybrids.

10. Probing alamethicin channels with water-soluble polymers. Effect on conductance of channel states.

Review 1. Nanofabrication for the analysis and manipulation of membranes.

2. Imaging of immunogold labeling in cells and tissues by helium ion microscopy.